Sparkers

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Number of patent applications / Date published

1231465R0

Sparkers

77

20140190438

PLASMA GENERATING DEVICE AND INTERNAL COMBUSTION ENGINE - The size of the plasma produced by a plasma-generating device that generates plasma using electromagnetic (EM) radiation is enlarged. The plasma-generating device has an EM-wave-generating device that generates EM radiation, a radiation antenna that emits the EM radiation supplied from the EM-wave-generating device to a target space, and a receiving antenna located near the radiation antenna. The receiving antenna is grounded such that an adjacent portion that is close to the radiation antenna has a higher voltage while the EM radiation is emitted from the radiation antenna. The plasma-generating device generates plasma in the target space near the radiation antenna and the adjacent portion by emitting EM radiation from the radiation antenna.

07-10-2014

20130312692

Spark Plug For An Internal Combustion Engine - Spark plug for an internal combustion engine, having a center electrode and a ground electrode arranged in radial direction around the center electrode, wherein an annular spark gap is formed between the center electrode and the ground electrode for igniting a fuel mixture by means of an electric ignition spark developing between the center electrode and the ground electrode, and wherein the ground electrode is contoured in such a way that particles reaching the region of the ground electrode can be removed from the spark gap under the influence of gravitational force.

11-28-2013

20110073058

HIGH-VOLTAGE GENERATOR DEVICE - A high-voltage generator device, including an inductive-capacitive resonator capable of producing a high voltage, a mechanism generating a high-frequency control pulse train, a voltage source, a capacitor, and a voltage generator including a switching transistor, the control electrode of which is connected to the output of the mechanism generating the high-frequency control pulse train, the source of the switching transistor being connect to ground, and the drain of the switching transistor being capable of delivering a voltage pulse train to the inductive-capacitive resonator in response to the control pulse train received on the control electrode of the switching transistor. The drain of the switching transistor is connected to the inductive-capacitive resonator via an isolating transformer, the isolating transformer being connected in parallel with a capacitor, the isolating transformer also being connected to the voltage source.

DETECTION SYSTEM FOR DETERMINING SPARK VOLTAGE - A detection system for determining spark voltage of a spark plug in a capacitive discharge ignition system is disclosed. The detection system may have a sensor circuit configured to detect occurrence of a spark by measuring a voltage on a low side of a primary coil. The detection system may also have an electronic control unit connected to the sensor circuit. The electronic control unit may be configured to receive a signal from the sensor circuit indicating that the voltage exceeded a threshold. The electronic control unit may be further configured to determine a spark time based on the signal, and determine a spark voltage based on the spark time.

CONTROL DEVICE FOR SPARK IGNITION TYPE INTERNAL COMBUSTION ENGINE - To alleviate or eliminate a problem of unburned fuel discharged to the outside of a cylinder in a case in which an air fuel mixture is insufficiently combusted in a combustion chamber. During the expansion stroke in which a high voltage is applied to an ignition plug via an ignition coil, and a spark discharge is caused to occur at the ignition plug, thereby the air fuel mixture in the combustion chamber is ignited and combusted, in a case in which deterioration of combustion state is detected, a microwave electric field is created in the combustion chamber prior to an opening timing of an exhaust valve at an end stage of the expansion stroke, thereby plasma is generated and enlarged in the combustion chamber.

01-29-2015

20130199485

CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an ignition system of an internal combustion engine which can appropriately judge deterioration of a spark plug is disclosed. The ignition system includes a spark plug and a Zener diode. These are connected in parallel. In the ignition system, a constant-voltage path whose one of two ends is grounded is connected to the connecting path which connects the center electrode of the spark plug to a secondary coil. The constant-voltage path includes a Zener diode and a resistor. In a case where electric current is detected at the resister in a term from the start of current supply to a primary coil to the end, the control apparatus judges the spark plug being deteriorated.

08-08-2013

20120060785

IGNITION DEVICE OF INTERNAL COMBUSTION ENGINE AND ELECTRODE STRUCTURE OF THE IGNITION DEVICE - An ignition device having an electrode structure including an anode, a cathode, an auxiliary electrode, an anode coating, an auxiliary electrode coating, and an anode supporting body. A coated surface of the anode is opposed to a coated surface of the auxiliary electrode with the anode coating, a combustion space, and the auxiliary electrode coating therebetween. An exposed surface of the anode is opposed to an exposed surface of the cathode with the combustion space therebetween. A distance D

ENGINE FOR COMBUSTING FUEL - An engine for combusting fuel that has a head mounted to an engine block with a gasket disposed therebetween. A chamber is formed within the engine block and head that is frustroconical in shape to direct the energy wave created by the fuel to a reciprocating piston that is disposed within the chamber in the engine block. The gasket has electrical components therein including at least one electrode that extends into the chamber such that when activated the electrode provides a spark in the chamber.

11-08-2012

20090126669

Ignition source adapted for positioning within a combustion chamber - An ignition source for initiating combustion is provided. The ignition source includes an electrical delivery conductor mounted in a delivery conductor mounting structure. An electrical ground conductor is mounted in a ground conductor mounting structure and extends from the ground conductor mounting structure to a point proximate the delivery conductor to define an ignition spark gap between the delivery conductor and the ground conductor. At least one of the delivery conductor and the ground conductor is mounted so as to be positionable with respect to the other one of the delivery conductor and the ground conductor to selectively adjust a width of the ignition spark gap.

05-21-2009

20090107439

Pre-chamber igniter having RF-aided spark initiation - An igniter for an internal combustion engine is disclosed. The igniter may have a body, and a pre-combustion chamber integral with the body and having at least one orifice. The igniter may also have at least one electrode associated with the pre-combustion chamber. The at least one electrode may be configured to direct RF energy to lower an ignition breakdown voltage requirement of an air and fuel mixture in the pre-combustion chamber. The RF energy alone may be insufficient to ignite and sustain combustion of the air and fuel mixture. The at least one electrode may also be configured to generate an arc that extends to an internal wall of the pre-combustion chamber and ignites the air and fuel mixture.

04-30-2009

20090133656

Ignition source adapted for positioning within a combustion chamber - An ignition source for initiating combustion is provided. The ignition source includes an electrical delivery conductor mounted in a delivery conductor mounting structure. An electrical ground conductor is mounted in a ground conductor mounting structure and extends from the ground conductor mounting structure to a point proximate the delivery conductor to define an ignition spark gap between the delivery conductor and the ground conductor. At least one of the delivery conductor and the ground conductor are mounted in a respective one of the delivery conductor mounting structure and the ground conductor mounting structure so as to be selectively positionable with respect to the other one of the delivery conductor and the ground conductor to selectively adjust a width of the ignition spark gap.

05-28-2009

20090107438

PRE-CHAMBER IGNITER HAVING ADJUSTABLE ELECTRODE - An igniter for an internal combustion engine is disclosed. The igniter may have a body, and a pre-combustion chamber integral with the body and having at least one orifice. The igniter may also have at least one electrode extending into the pre-combustion chamber. The at least one electrode may be configured to direct an arc to an annular side wall of the pre-combustion chamber, and may be movable to adjust an arc termination location on the annular side wall of the pre-combustion chamber.

04-30-2009

123149000

Dynamos

2

20090272354

CAPACITOR DISCHARGE IGNITION DEVICE FOR ENGINE - A capacitor discharge ignition device for an engine including: an exciter coil provided in a magneto generator driven by the engine; a voltage increasing circuit that increases an induced voltage of the exciter coil; a capacitor charged by an output voltage of the voltage increasing circuit; and a discharge switch that is turned on at ignition timing of the engine and discharges charges in the capacitor through a primary coil of the ignition coil, wherein the ignition device further includes a voltage increasing control portion that controls the voltage increasing circuit so as to increase an output voltage of the voltage increasing circuit when a rotational speed of the engine is a set value or less, and limit the output voltage of the voltage increasing circuit when the rotational speed of the engine exceeds the set value.

11-05-2009

20100139600

STATIONARY BLOCK ROTARY ENGINE/GENERATOR - An internal combustion engine, and an optional integrated electrical generator, both enclosed in a single waterproof and dustproof case. The engine has at least one cylinder and piston which extends radially from an axis of rotation about which a cam track assembly rotates. The engine block, including at least one cylinder, remains stationary.

06-10-2010

123149000

Inductor type

1

20090272354

CAPACITOR DISCHARGE IGNITION DEVICE FOR ENGINE - A capacitor discharge ignition device for an engine including: an exciter coil provided in a magneto generator driven by the engine; a voltage increasing circuit that increases an induced voltage of the exciter coil; a capacitor charged by an output voltage of the voltage increasing circuit; and a discharge switch that is turned on at ignition timing of the engine and discharges charges in the capacitor through a primary coil of the ignition coil, wherein the ignition device further includes a voltage increasing control portion that controls the voltage increasing circuit so as to increase an output voltage of the voltage increasing circuit when a rotational speed of the engine is a set value or less, and limit the output voltage of the voltage increasing circuit when the rotational speed of the engine exceeds the set value.

11-05-2009

20100139600

STATIONARY BLOCK ROTARY ENGINE/GENERATOR - An internal combustion engine, and an optional integrated electrical generator, both enclosed in a single waterproof and dustproof case. The engine has at least one cylinder and piston which extends radially from an axis of rotation about which a cam track assembly rotates. The engine block, including at least one cylinder, remains stationary.

06-10-2010

123151000

Combined sparker and valve

1

20100012067

Gaseous or liquid fuel delivery spark plug - A turn-key method of providing a typical gasoline internal combustion engine with a hybrid fuel that is combustible is accomplished with a modified spark plug. The spark plug design is relative to the use of the internal combustion engine and has the capacity to support traditional gasoline consumption in the absence of a hybrid fuel. Both liquid and gaseous hybrid fuels such as natural gas, methane, nitrous oxide, hydrogen, butane, propane, ethanol, etc. can be supported by the spark plug. In addition the design supports the spontaneous electrolysis of water followed by the instantaneous combustion of the electrolysis products Hydrogen & Oxygen back to water. This design accommodates the more modern engine designs which conceal the placement of spark plugs into the head of the engine, rather than previous designs with side arms that inhibit installation.

01-21-2010

123152000

Combined valve and sparker operating

1

20090314238

PLUG-IN-PISTON ASSEMBLY AND METHOD OF USING THE SAME - The combination of a piston with an integrated spark plug to be used in an internal combustion engine is disclosed. The plug-in-piston configuration allows for maximum combustion and fuel efficiency as well as increased power output. Further, the configuration minimizes the release of unburned fuel and pollutants into the atmosphere. A method is also disclosed by which electrical energy is communicated to a spark plug.

12-24-2009

123169000

Plugs

52

20110061624

IGNITION DEVICE ATTACHMENT STRUCTURE FOR INTERNAL COMBUSTION ENGINE - An ignition device attachment structure for an internal combustion engine includes an ignition plug tube inserted between a cylinder head cover and an ignition device insertion hole formed in a cylinder head of the internal combustion engine. The ignition plug tube bulges from an upper end of the ignition plug tube to an intermediate portion of the ignition plug tube on a lateral surface of the ignition plug tube.

Spark Plug - A spark plug for igniting a combustible gas mixture in an internal combustion engine includes an ignition electrode with an electrical supply line is connected thereto. A pipe housing is provided for enclosing the electrical supply line and a venting channel is provided for discharging combustion gases from the pipe housing. The venting channel provides for discharging combustion gases infiltrating the spark plug as leakage gases run along the supply line.

10-15-2009

20100147239

IGNITION ARRANGEMENT - An ignition arrangement for a combustion machine, which provides a corona discharge for ignition of a fuel/air mixture in the combustion chamber (

06-17-2010

20120125279

PRE-CHAMBER SPARK PLUG WITH TUBULAR ELECTRODE AND METHOD OF MANUFACTURING SAME - A pre-chamber spark plug that includes a shell, and an end cap attached to the shell. Additionally, the pre-chamber spark plug includes an insulator disposed within the shell. In a particular embodiment, a center electrode has a first portion surrounded by the insulator, and a second portion that extends from the insulator into a pre-chamber. The pre-chamber defined by the shell and end cap. In a further embodiment, a ground electrode is attached to the shell. In particular embodiments, the ground electrode is tubular in shape and includes an inner spark surface ring spaced in surrounding relation to the center electrode to create a spark gap, an outer ring attached to the shell, and a plurality of rounded spokes connecting the inner and outer rings. In a particular embodiment, the ground and center electrodes accommodate attachment of precious metal alloys to increase electrode surface life.

05-24-2012

20110056449

IGNITION COIL FOR VEHICLE - A secondary winding spool for an ignition coil has two segments, one residing within a spark plug well and the other having a larger diameter than the well and residing above the well, to maximize exploitation of coil space in an engine.

03-10-2011

20100319644

ENERGY EFFICIENT PLASMA GENERATION - A plasma ignition system is described herein that can produce plasma ionization around a spark plug gap using a single power circuit for the spark and plasma ionization. The system results in fewer components and higher reliability, allowing the system to be more easily integrated with existing ignition circuitry or in new ignition system designs. The plasma ignition system adds a one-way current path between the primary and secondary windings of the high voltage transformer. This allows energy stored within the capacitor after the creation of the spark to flow out of the capacitor, across the one-way current path, and through the spark plug gap. Thus, the plasma ignition system provides a dramatically better ignition spark with relatively little increase in components. The system does so without requiring a secondary power supply circuit to generate the current for producing plasma ionization.

12-23-2010

20140261273

CORONA IGNITION DEVICE - The invention relates to a corona ignition device for igniting fuel in a combustion chamber of an engine by means of a corona discharge, comprising a tubular housing, a coil arranged in the tubular housing, an insulator, which plugs into the tubular housing, and a center electrode, which is connected to the coil, plugs into the insulator and leads to at least one ignition tip. In order to increase the service life of the ignition tip, said ignition tip consists in part or completely of an iridium-based alloy containing 3 to 30% by weight of rhodium or is coated by a burn-up layer.

09-18-2014

20130269643

IGNITION APPARATUS AND IGNITION SYSTEM - An ignition apparatus which facilitates improvement in energy efficiency as well as materializing an excellent ignitability through effectively utilizing energy used for inductive discharge as a blowout power. The ignition apparatus is used for an ignition plug that includes a center electrode, a ground electrode and a cavity surrounding at least a portion of a clearance formed between the two electrodes to thereby form a discharge space. The ignition apparatus includes a voltage application portion which applies voltage to the clearance and a power supply portion which supplies electric power to the clearance. In addition, a capacitance portion for storing a capacitance is provided, in parallel with the ignition plug, in a voltage application path of the voltage application portion.

10-17-2013

20140318490

SPARK PLUG FOR INTERNAL COMBUSTION ENGINES AND MOUNTING STRUCTURE FOR THE SPARK PLUG - A spark plug for an internal combustion engine includes a housing, an insulation porcelain, a center electrode and a ground electrode. Both of a tip portion of the center electrode and an opposing portion of the ground electrode are provided with respective projection portions which are projected toward a spark discharge gap. At least one of the projection portions has an opposing face that confronts the spark discharge gap and is inclined with respect to a plane perpendicular to an axial direction of the plug. The spark discharge gap is configured to be gradually enlarged, in one direction perpendicular to the axial direction of the plug, from a narrow gap on one end side toward a wide gap on the other end side.

10-30-2014

20100175655

IGNITER SYSTEM FOR IGNITING FUEL - This invention provides a corona discharge fuel igniter system and methods for igniting fuel in an internal combustion engine. A ceramic dielectric material is provided that significantly increases the efficiency of corona discharge to ignite the fuel in an internal combustion engine.

07-15-2010

20100018488

VEHICLES INCLUDING FRAME DEFINING SPARK PLUG ACCESS APERTURE AND METHODS - A vehicle, such as a motorcycle, includes an engine and a frame. The engine includes a cylinder housing and a spark plug. The cylinder housing defines a spark plug aperture. The spark plug is received within the spark plug aperture. The frame supports the engine and comprises a frame member. The frame member is adjacent to the cylinder housing and defines an access aperture. The access aperture is substantially aligned with the spark plug aperture. The access aperture is configured to facilitate installation and removal of the spark plug with respect to the spark plug aperture. Methods of installing and replacing a spark plug are also provided.

01-28-2010

20100101521

SPARK PLUG AND INTERNAL COMBUSTION ENGINE PROVIDED WITH THE SAME - A spark plug comprising a cylindrical portion which projects into a combustion chamber from an inner wall face of an engine head when the spark plug is fixed to the engine head, wherein the cylindrical portion has one or more ventilating portion comprised of a through hole or a notch in an outer circumferential face thereof. An igniting portion projecting into the combustion chamber improves ignitability. Further, because an air-fuel mixture fed from an inlet of the internal combustion engine flows to inside of the cylindrical portion through the ventilating portion, heat of an insulator is taken away and cooled down, whereby an occurrence of pre-ignition is prevented.

04-29-2010

20100313841

CONTROL OF A PLURALITY OF PLUG COILS VIA A SINGLE POWER STAGE - A plasma generating device including: a supply circuit including a switch controlled by a control signal for applying an intermediate voltage on an output of the control circuit at a frequency defined by the control signal; a plurality of plasma-generating plug coils arranged in parallel on the output via connectors, each connector being adapted to be removably connected to a corresponding plug coil and including a mechanism adapted to offset the resonance frequency of the plug coil so that each plug coil has a distinct resonance frequency; a control device of the supply circuit, that determines the control frequency from the resonance frequencies of the plug coils to selectively control the plug coils according to the control frequency used.

12-16-2010

20090277410

SPARK PLUG - Projecting portions extended in an axis (O) direction and projecting forward are formed on a front end face of a cylindrical portion provided on a front end side of a metal shell. The projecting portions are disposed at an equal interval therebetween in a circumferential direction revolving around a center S of a firing portion. Regardless of the mounting state of a spark plug on an engine head (i.e., a shift in the circumferential direction caused by a difference in tightening of a fitting screw), a side face or an end face of any one of projecting portions will face an upstream side of a fuel (combustible air-fuel mixture layer) flow direction, which flows with an air current in a combustion chamber. Therefore, the combustible air-fuel mixture layer colliding with the projecting portion includes the flow direction directed to the firing portion as its reflective direction and is thus adrift around the firing portion.

11-12-2009

20090314239

IGNITION APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - An ignition apparatus for an internal combustion engine is small in size and has high reliability capable of withstanding or enduring a vibration environment of a vehicle to which the ignition apparatus is installed. The ignition apparatus includes a spark plug that has its tip end portion presented in the interior of a cylinder of an internal combustion engine main body, a high voltage generation power supply that serves to apply a high voltage to the spark plug, a microwave oscillation device that has an amplifying element for generating a microwave, and a microwave antenna that is mounted on the spark plug, irradiates the micro wave generated from the microwave oscillation device to the interior of the cylinder, thereby forming a plasma generation region around discharge electrodes of the spark plug. The microwave oscillation device is made into a solid state.

12-24-2009

20130098324

ASSEMBLY OF SPARK PLUG AND ENGINE MAIN BODY - An assembly includes an engine main body, a spark plug and a gasket. The spark plug is mounted to the engine main body by tightening a male-threaded portion of the spark plug into a female-threaded portion of the engine main body with the gasket elastically deformed between a seat surface of the engine main body and a seating surface of the spark plug. The gasket is made of a metallic material whose yield stress or 0.2% proof stress is not lower than 200 N/mm

04-25-2013

20120055434

IGNITER FOR IGNITING A FUEL-AIR-MIXTURE USING HF CORONA DISCHARGE AND ENGINE FITTED WITH SUCH IGNITERS - An igniter for igniting a fuel-air-mixture in a combustion chamber, in particular in a combustion engine with one or several combustion chambers, by generating a high frequency corona discharge, said ignitiger comprising an assembly comprising an ignition electrode, an outer conductor surrounding the ignition electrode, which has a front end and a rear end, and an electrical insulator arranged between the ignition electrode and the outer conductor, wherein the ignition electrode is part of an electrical high-frequency resonant circuit, protrudes over the front end of the outer conductor, and is connected to an alternate current source or alternate voltage source which feeds the HF-resonant circuit, and delivers a high frequency alternate current or a high frequency alternate voltage, respectively. The ignition electrode is branched into more than four electrode branches extending away from the outer conductor, in different directions.

03-08-2012

20140020646

GASKET FOR ATTACHING SPARK PLUG AND IGNITION SYSTEM - A gasket for attaching a spark plug to an internal combustion engine, the gasket having an annular portion. The annular portion is annular to surround the spark plug, and has contact surfaces on both axial ends, one of the contact surfaces being to contact the spark plug, the other being to contact the internal combustion engine. The annular portion is composed of copper alloy containing aluminum oxide. The aluminum oxide content of the copper alloy is 0.3 wt % or more, and 0.7 wt % or less.

01-23-2014

20110290208

HF Ignition Device - Described is an HF ignition device for igniting a fuel in an internal combustion engine, comprising a ceramic insulator which carries an ignition electrode and encloses an inner conductor leading to the ignition electrode, and an outer conductor which encloses the insulator and, together with a section of the inner conductor, forms a capacitor which is part of a circuit for the HF excitation of the ignition electrode. According to the invention, the insulator is part of a ceramic body which comprises an inner region which is composed of an electrically conductive ceramic and is enclosed by the insulator, and an outer region which is composed of an electrically conductive ceramic and encloses the insulator.

12-01-2011

20120180744

INTERNAL COMBUSTION ENGINE IGNITION DEVICE - The invention relates to an arrangement comprising an internal combustion engine ignition device having a spark plug and a spark plug seat in which the spark plug can be fastened in a fastening zone, and a cylinder head in which the spark plug is or can be mounted via the spark plug seat, the cylinder head having a cylinder head cooling cavity. The spark plug seat comprises a temperature control medium chamber which is separate from the cylinder head cooling cavity and has a medium feed line and a medium discharge line, the temperature control medium chamber and the cylinder head cooling cavity being connected to separate medium temperature control devices and forming separate medium systems.

07-19-2012

20120180743

CORONA IGNITER WITH MAGNETIC SCREENING - The invention relates to a corona ignitor device configured to be fixed within a combustion chamber, including a housing extending between an upper end and a lower end of the ignitor device. Inductor windings are received in the housing between the upper and lower ends, and a magnetic shield located between the housing and the inductor windings prevent magnetic flux from emanating out of the ignitor device.

07-19-2012

20110126789

EXCESS DEMAND VOLTAGE RELIEF SPARK PLUG FOR VEHICLE IGNITION SYSTEM - A vehicle ignition system is provided that alleviates the problems associated with excessive voltage demand by spark plugs. The ignition system has a spark plug with an electrode and a voltage relief feature operatively connected with the electrode. The voltage relief feature is operable to discharge current from the electrode at a predetermined voltage.

06-02-2011

20160007437

ELECTROMAGNETIC WAVE EMISSION DEVICE - The purpose of the present invention is to provide an electromagnetic wave emission device in which the destination to which an electromagnetic wave is supplied can be switched among a plurality of emission antennas, wherein there are no problems such as breakage of a switching element even in a case where a large-power electromagnetic wave is emitted. The present invention is an electromagnetic wave emission device characterized by the following: an electromagnetic wave output from an electromagnetic wave generator is distributed to a plurality of emission antennas, and then from among the plurality of emission antennas, a target antenna having plasma nearby is supplied with an electromagnetic wave distributed to the target antenna and all or part of the electromagnetic waves reflected by the emission antennas other than the target antenna; and the all or part of the electromagnetic waves distributed to the target antenna and all or part of the electromagnetic waves supplied to the target antenna after reflection by the emission antennas other than the target antenna are emitted from the target antenna to the plasma.

01-07-2016

20160076507

VENTED SPARK PLUG TUBE WITH FLAME ARRESTOR - A venting apparatus for combustion gas is provided, comprising a port formed in a valve cover having an inlet in flow communication with an enclosed volume within a spark plug tube that receives combustion gas build up, a check valve having an inlet in flow communication with an outlet of the port, and a flame arrestor having an inlet in flow communication with an outlet of the check valve, and a plurality of outlets. Combustion gas in the volume is vented through the check valve and the flame arrestor but a flame from ignition of the combustion gas in the volume is prevented from propagating through the flame arrestor to an outside environment.

03-17-2016

20090071429

SPARK PLUG AND INTERNAL COMBUSION ENGINE IN WHICH THE SPARK PLUG IS DISPOSED - To provide a spark plug with improved heat resistance and an internal combustion engine in which that spark plug is mounted where there is good conduction of the heat near the opening on the combustion chamber side of the mounting hole for the spark plug provided in the engine and the effects of thermal stress occurring near that opening are mitigated. A cylindrical part without threads formed thereon is provided on the leading end side of a metal housing of a spark plug and the thermal stress applied to a mounting hole is mitigated by avoiding close contact with the mounting hole of an engine head. Furthermore, the spark plug has a mounting structure in which the leading end surface of the cylindrical part is disposed 1.55 mm or more to the base end side in a mounting hole in the direction of the axial line O with respect to the wall surface inside the combustion chamber. By this means, the metal housing does not easily take up the heat that accompanies combustion of the air-fuel mixture inside the combustion chamber at the cylindrical, part so there may be good heat conduction.

Ignition spark plug - An ignition plug is disclosed which includes a hollow main cell having a bendable extension part and a primary combustion chamber, an insulator mounted in the main cell, to insulate a terminal rod centrally embedded in the main cell, a central electrode having a first electrical contact arranged in the primary combustion chamber, the central electrode extending downwardly from the terminal rod while being surrounded by the insulator, a second electrical contact provided at a lower inner surface of the main cell while being arranged in the primary combustion chamber, the second electrical contact corresponding to the first electrical contact, and a cross flame ignition valve coupled to the main cell by the extension part in a bent state of the extension part, the cross flame ignition valve having a main ignition hole and auxiliary ignition holes for guiding flames from the primary combustion chamber to an interior of a cylinder.

06-04-2009

20090025670

SPARK TO FLAME CONVERSION UNIT, SUCH AS EMPLOYED WITH AN EXISTING SPARK PLUG OR HEAT SOURCE SUPPLIED GLOW PLUG FOR ACCOMPLISHING MORE EFFICIENT PISTON COMBUSTION - A pre-chamber for use with a spark plug or glow plug, the chamber being secured at an upper end attachable unit associated with an internal combustion cylinder. The pre-chamber is designed to promote faster ionization resulting in more efficient spark to flame ignition (due to voltage buildup being delayed until a generated spark jumps the gap), or beat to flame ignition (due to the introduction temperature of the injected plasma) and, in each instance, results in faster propagation of flame within the compressed cylinder, thereby achieving more efficient and consistent (cycle to cycle) output in combination with lower exhaust temperatures. A plurality of outlet ports are defined, such as perimeter/radially extending fashion, in an outlet end of the pre chamber body and communicate the combusted fuels as a plurality of flame outlets with a remaining volume of atomized fuel within the combustion chamber during a power outlet stroke.

01-29-2009

20080295792

SPARK PLUG AND CYLINDER HEAD - A spark plug comprises a spark plug body, which carries two electrodes bordering a spark gap at one end, and exhibits a nut with external thread that can rotate around the spark plug body. A cylinder head exhibits a rotational coding complementary to the rotational coding of the spark plug body.

12-04-2008

20130291821

COMBUSTION CHAMBER STRUCTURE BY USING PREHEATING NET AND SPARK PLUG TO IGNITE - A combustion chamber structure by using a preheating net and a spark plug to ignite includes a cylinder. The cylinder is connected with a connection seat. The connection seat has a threaded hole. A spark plug is fixedly connected in the threaded hole. A preheating net is transversely disposed under the spark plug. A certain distance is defined between the spark plug and the preheating net. When electrified, the spark plug and the preheating net will generate an electric arc to rise the temperature of the preheating net and to preheat the mixing oil gas in the combustion chamber. The present invention enhances the burning efficiency. The oil gas in the combustion chamber is complete combustion to enhance horsepower and to save oil. Besides, the present invention can decrease the exhaust gas so it is environment-friendly.

11-07-2013

20100275870

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - A spark plug includes a center electrode extending along an axial line, a ground electrode, and a noble metal tip. A center axis of the noble metal tip is displaced from a center axis of the ground electrode toward a base-end side in the axial line. The ground electrode includes an outer layer and an inner layer, and a distal end of the inner layer is closer to the axial line than a base end of the ground electrode. An overlap area between the inner layer and the noble metal tip occupies a ratio of 25% or more in a projective plane defined by projecting, along the center axis, a plane of the ground electrode viewed from a distal-end face on a cross section of the ground electrode in which a maximum cross-sectional area of the inner layer is achieved, among cross sections orthogonal to the center axis.

Electrode for an Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

07-15-2010

20140345552

SPARK PLUG AND INTERNAL COMBUSTION ENGINE - To improve a heat conductance of an center electrode of a spark plug in which its center electrode protrudes to a combustion chamber from the defining surface of the chamber, the ignition plug includes a center electrode to where high voltage for spark discharge is applied; an insulator having a penetration hole to where the center electrode is fit; and an earth electrode that forms a discharge gap between the center electrode at where the spark discharge is generated. The center electrode protrudes from a defining surface of an internal combustion engine to a combustion chamber when the ignition plug is attached to the engine. The entirety of a main body of the center electrodes that is fixed by fitting into a penetration hole of the insulator is made of high heat conductance material having heat-conductivity of 250 W/mK or more.

11-27-2014

20140202413

SPARK IGNITION DEVICE FOR AN INTERNAL COMBUSTION ENGINE AND CENTRAL ELECTRODE ASSEMBLY THEREFORE - A spark ignition device includes a ceramic insulator with a metal shell surrounding at least a portion of the ceramic insulator. A ground electrode is attached to the shell. The ground electrode has a ground electrode sparking tip spaced from a central sparking tip by a spark gap. A first terminal is arranged in electrical communication with the central sparking tip and is configured for electrical connection with a power source. The device further includes a second terminal configured for electrical connection with the power source. The second terminal is spaced from the first terminal, with the second terminal being arranged in electrical communication with the first terminal. A heater element brings the first terminal in electrical communication with the second terminal and completes an electrical circuit. The heater element has a resistance greater than the first and second terminals thereby producing a significant source of heat.

07-24-2014

20150311678

SEALING RING FOR A SPARK PLUG OF AN INTERNAL COMBUSTION ENGINE, SPARK PLUG AND INTERNAL COMBUSTION ENGINE - A sealing ring for a spark plug that has an external thread for screwing into an internal combustion engine, a collar and a thread undercut between the external thread and the collar. The sealing ring includes a ring-shaped solid sealing element made from metal. The sealing element has two planar annular sealing surfaces that are arranged parallel to one another. An annular retaining element composed of an elastomer for engaging in the thread undercut of the spark plug in a self-retaining manner is attached to the sealing element on the inner ring side thereof. Also included is a spark plug comprising such a sealing ring, and an internal combustion engine comprising such spark plugs.

10-29-2015

20140144402

BARRIER DISCHARGE IGNITION APPARATUS FOR INTERNAL COMBUSTION ENGINE - A barrier discharge ignition apparatus has a tip end exposed to a combustion chamber of an internal combustion engine and, when subjected to a high-frequency high-voltage AC burst, generates streamer discharges for igniting a fuel/air mixture in the combustion chamber. A central electrode of the apparatus, covered by a dielectric layer and coaxially enclosed in a ground electrode, extends into the combustion chamber to a greater distance than the ground electrode. An electrode portion close to the tip end of the inner periphery of the ground electrode protrudes towards the dielectric layer, for creating a localized high-density electric field. The streamer discharges thereby enter both the to combustion chamber and also a discharge chamber of the ignition apparatus.

05-29-2014

20140083386

Spark Plug For An Internal Combustion Engine - Spark plug for an internal combustion engine, having a center electrode and a ground electrode. A spark gap is formed between the center electrode and ground electrode for igniting a fuel mixture by an electric ignition spark developing between the center electrode and the ground electrode. The center electrode and the ground electrode are contoured such that a ratio of a surface of the center electrode and the ground electrode, which is available for development of the ignition spark to a wear volume when an ignition spark is generated, is increased in such a way that an enlargement of the spark gap occurring as a result of wear when an ignition spark is generated is minimized.

03-27-2014

20110139107

SPARK IGNITION DEVICE FOR AN INTERNAL COMBUSTION ENGINE AND CENTRAL ELECTRODE ASSEMBLY THEREFOR - A spark ignition device includes a ceramic insulator with a metal shell surrounding at least a portion of the ceramic insulator. A ground electrode is attached to the shell. The ground electrode has a ground electrode sparking tip spaced from a central sparking tip by a spark gap. A first terminal is arranged in electrical communication with the central sparking tip and is configured for electrical connection with a power source. The device further includes a second terminal configured for electrical connection with the power source. The second terminal is spaced from the first terminal, with the second terminal being arranged in electrical communication with the first terminal. A heater element brings the first terminal in electrical communication with the second terminal and completes an electrical circuit. The heater element has a resistance greater than the first and second terminals thereby producing a significant source of heat.

06-16-2011

20090107440

Electrode For An Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

04-30-2009

20080308057

Electrode for an Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

12-18-2008

20110017163

SPARK PLUG - A spark plug is provided capable of speedily burn off carbon adhered on an insulator. With this spark plug, in order to improve the temperature rise performance of a front end side of an insulator

01-27-2011

20100242888

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - In a spark plug having a precious metal tip joined to the front end portion of a ground electrode, the stable junction state of the precious metal tip is guaranteed for a long time. A precious metal tip

09-30-2010

20100206256

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - There is provided a spark plug for an internal combustion engine, including: a center electrode extending in the direction of an axis of the spark plug and having a core of higher thermal expansion coefficient than that of a front end thereof, the center electrode including a flanged portion radially outwardly protruding on a rear side thereof and a cylindrical portion located closer to a front end of the spark plug than the flanged portion and being smaller in diameter than the flanged portion; an insulator having an axial hole in the direction of the axis to retain the flanged portion in the axial hole with the cylindrical portion held in a loose-fit state in the axial hole; and a metal shell accommodating the insulator, wherein the spark plug satisfies the following condition: Cb

08-19-2010

20120285409

IGNITER - An igniter for an internal combustion engine, the igniter comprising: a center electrode; an insulator disposed about the center electrode; a ground shield disposed about the insulator, the insulator having a tip portion extending past an end portion of the ground shield and a tip portion of the center electrode extending through and away from the tip portion of the insulator; and a spark gap disposed between the tip portion of the center electrode and the end portion of the ground shield.

11-15-2012

20100101520

Spark plug boot - A spark plug boot has a hollow resilient body defining an interior configured to hold a spark plug. At least one sealing ring circumscribes the outer surface of the body and is configured for being closely received in a spark plug well of an engine block. The ring defines a constant diameter around a 360 degree circumference and a variable thickness in a dimension parallel to the axis of the ring.

Spark Plug of an Internal Combustion Engine - A spark plug of internal, combustion engine is disclosed. The spark plug includes: a main body having main thread on lower outer side; an insulator mounted in a hollow portion of the main body; a ground electrode to correspond to a central electrode extending from the lower end of the terminal rod; a primary combustion chamber forming shell having female thread to be screw-coupled with the main thread, male thread to fix a combustion chamber, and an ejection hole; the primary combustion chamber formed between the main body and the primary combustion chamber forming shell and having changeable volume; and a heat exchange member disposed between the main body and the insulator to exchange heat caused by flame and to block leak of volatile gas; wherein the main ejection hole has a single main ejection hole and at least two auxiliary ejection holes formed around the main ejection hole.

PLASMA SPARK PLUG FOR AN INTERNAL COMBUSTION ENGINE - An essentially-elongated spark plug for an internal combustion engine of a motor vehicle, including: an essentially-capacitive lower part including two coaxial electrodes; an essentially-inductive upper part including a central mandrel, a coaxial winding around the mandrel, and an external tubular casing that serves as electromagnetic armour; and an insulant disposed radially between the casing and the winding. The essentially-inductive upper part includes a second internal casing of electromagnetic armour, which is disposed radially between the insulant and the external casing.

05-07-2009

123169000

Electrodes

12

20110061624

IGNITION DEVICE ATTACHMENT STRUCTURE FOR INTERNAL COMBUSTION ENGINE - An ignition device attachment structure for an internal combustion engine includes an ignition plug tube inserted between a cylinder head cover and an ignition device insertion hole formed in a cylinder head of the internal combustion engine. The ignition plug tube bulges from an upper end of the ignition plug tube to an intermediate portion of the ignition plug tube on a lateral surface of the ignition plug tube.

Spark Plug - A spark plug for igniting a combustible gas mixture in an internal combustion engine includes an ignition electrode with an electrical supply line is connected thereto. A pipe housing is provided for enclosing the electrical supply line and a venting channel is provided for discharging combustion gases from the pipe housing. The venting channel provides for discharging combustion gases infiltrating the spark plug as leakage gases run along the supply line.

10-15-2009

20100147239

IGNITION ARRANGEMENT - An ignition arrangement for a combustion machine, which provides a corona discharge for ignition of a fuel/air mixture in the combustion chamber (

06-17-2010

20120125279

PRE-CHAMBER SPARK PLUG WITH TUBULAR ELECTRODE AND METHOD OF MANUFACTURING SAME - A pre-chamber spark plug that includes a shell, and an end cap attached to the shell. Additionally, the pre-chamber spark plug includes an insulator disposed within the shell. In a particular embodiment, a center electrode has a first portion surrounded by the insulator, and a second portion that extends from the insulator into a pre-chamber. The pre-chamber defined by the shell and end cap. In a further embodiment, a ground electrode is attached to the shell. In particular embodiments, the ground electrode is tubular in shape and includes an inner spark surface ring spaced in surrounding relation to the center electrode to create a spark gap, an outer ring attached to the shell, and a plurality of rounded spokes connecting the inner and outer rings. In a particular embodiment, the ground and center electrodes accommodate attachment of precious metal alloys to increase electrode surface life.

05-24-2012

20110056449

IGNITION COIL FOR VEHICLE - A secondary winding spool for an ignition coil has two segments, one residing within a spark plug well and the other having a larger diameter than the well and residing above the well, to maximize exploitation of coil space in an engine.

03-10-2011

20100319644

ENERGY EFFICIENT PLASMA GENERATION - A plasma ignition system is described herein that can produce plasma ionization around a spark plug gap using a single power circuit for the spark and plasma ionization. The system results in fewer components and higher reliability, allowing the system to be more easily integrated with existing ignition circuitry or in new ignition system designs. The plasma ignition system adds a one-way current path between the primary and secondary windings of the high voltage transformer. This allows energy stored within the capacitor after the creation of the spark to flow out of the capacitor, across the one-way current path, and through the spark plug gap. Thus, the plasma ignition system provides a dramatically better ignition spark with relatively little increase in components. The system does so without requiring a secondary power supply circuit to generate the current for producing plasma ionization.

12-23-2010

20140261273

CORONA IGNITION DEVICE - The invention relates to a corona ignition device for igniting fuel in a combustion chamber of an engine by means of a corona discharge, comprising a tubular housing, a coil arranged in the tubular housing, an insulator, which plugs into the tubular housing, and a center electrode, which is connected to the coil, plugs into the insulator and leads to at least one ignition tip. In order to increase the service life of the ignition tip, said ignition tip consists in part or completely of an iridium-based alloy containing 3 to 30% by weight of rhodium or is coated by a burn-up layer.

09-18-2014

20130269643

IGNITION APPARATUS AND IGNITION SYSTEM - An ignition apparatus which facilitates improvement in energy efficiency as well as materializing an excellent ignitability through effectively utilizing energy used for inductive discharge as a blowout power. The ignition apparatus is used for an ignition plug that includes a center electrode, a ground electrode and a cavity surrounding at least a portion of a clearance formed between the two electrodes to thereby form a discharge space. The ignition apparatus includes a voltage application portion which applies voltage to the clearance and a power supply portion which supplies electric power to the clearance. In addition, a capacitance portion for storing a capacitance is provided, in parallel with the ignition plug, in a voltage application path of the voltage application portion.

10-17-2013

20140318490

SPARK PLUG FOR INTERNAL COMBUSTION ENGINES AND MOUNTING STRUCTURE FOR THE SPARK PLUG - A spark plug for an internal combustion engine includes a housing, an insulation porcelain, a center electrode and a ground electrode. Both of a tip portion of the center electrode and an opposing portion of the ground electrode are provided with respective projection portions which are projected toward a spark discharge gap. At least one of the projection portions has an opposing face that confronts the spark discharge gap and is inclined with respect to a plane perpendicular to an axial direction of the plug. The spark discharge gap is configured to be gradually enlarged, in one direction perpendicular to the axial direction of the plug, from a narrow gap on one end side toward a wide gap on the other end side.

10-30-2014

20100175655

IGNITER SYSTEM FOR IGNITING FUEL - This invention provides a corona discharge fuel igniter system and methods for igniting fuel in an internal combustion engine. A ceramic dielectric material is provided that significantly increases the efficiency of corona discharge to ignite the fuel in an internal combustion engine.

07-15-2010

20100018488

VEHICLES INCLUDING FRAME DEFINING SPARK PLUG ACCESS APERTURE AND METHODS - A vehicle, such as a motorcycle, includes an engine and a frame. The engine includes a cylinder housing and a spark plug. The cylinder housing defines a spark plug aperture. The spark plug is received within the spark plug aperture. The frame supports the engine and comprises a frame member. The frame member is adjacent to the cylinder housing and defines an access aperture. The access aperture is substantially aligned with the spark plug aperture. The access aperture is configured to facilitate installation and removal of the spark plug with respect to the spark plug aperture. Methods of installing and replacing a spark plug are also provided.

01-28-2010

20100101521

SPARK PLUG AND INTERNAL COMBUSTION ENGINE PROVIDED WITH THE SAME - A spark plug comprising a cylindrical portion which projects into a combustion chamber from an inner wall face of an engine head when the spark plug is fixed to the engine head, wherein the cylindrical portion has one or more ventilating portion comprised of a through hole or a notch in an outer circumferential face thereof. An igniting portion projecting into the combustion chamber improves ignitability. Further, because an air-fuel mixture fed from an inlet of the internal combustion engine flows to inside of the cylindrical portion through the ventilating portion, heat of an insulator is taken away and cooled down, whereby an occurrence of pre-ignition is prevented.

04-29-2010

20100313841

CONTROL OF A PLURALITY OF PLUG COILS VIA A SINGLE POWER STAGE - A plasma generating device including: a supply circuit including a switch controlled by a control signal for applying an intermediate voltage on an output of the control circuit at a frequency defined by the control signal; a plurality of plasma-generating plug coils arranged in parallel on the output via connectors, each connector being adapted to be removably connected to a corresponding plug coil and including a mechanism adapted to offset the resonance frequency of the plug coil so that each plug coil has a distinct resonance frequency; a control device of the supply circuit, that determines the control frequency from the resonance frequencies of the plug coils to selectively control the plug coils according to the control frequency used.

12-16-2010

20090277410

SPARK PLUG - Projecting portions extended in an axis (O) direction and projecting forward are formed on a front end face of a cylindrical portion provided on a front end side of a metal shell. The projecting portions are disposed at an equal interval therebetween in a circumferential direction revolving around a center S of a firing portion. Regardless of the mounting state of a spark plug on an engine head (i.e., a shift in the circumferential direction caused by a difference in tightening of a fitting screw), a side face or an end face of any one of projecting portions will face an upstream side of a fuel (combustible air-fuel mixture layer) flow direction, which flows with an air current in a combustion chamber. Therefore, the combustible air-fuel mixture layer colliding with the projecting portion includes the flow direction directed to the firing portion as its reflective direction and is thus adrift around the firing portion.

11-12-2009

20090314239

IGNITION APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - An ignition apparatus for an internal combustion engine is small in size and has high reliability capable of withstanding or enduring a vibration environment of a vehicle to which the ignition apparatus is installed. The ignition apparatus includes a spark plug that has its tip end portion presented in the interior of a cylinder of an internal combustion engine main body, a high voltage generation power supply that serves to apply a high voltage to the spark plug, a microwave oscillation device that has an amplifying element for generating a microwave, and a microwave antenna that is mounted on the spark plug, irradiates the micro wave generated from the microwave oscillation device to the interior of the cylinder, thereby forming a plasma generation region around discharge electrodes of the spark plug. The microwave oscillation device is made into a solid state.

12-24-2009

20130098324

ASSEMBLY OF SPARK PLUG AND ENGINE MAIN BODY - An assembly includes an engine main body, a spark plug and a gasket. The spark plug is mounted to the engine main body by tightening a male-threaded portion of the spark plug into a female-threaded portion of the engine main body with the gasket elastically deformed between a seat surface of the engine main body and a seating surface of the spark plug. The gasket is made of a metallic material whose yield stress or 0.2% proof stress is not lower than 200 N/mm

04-25-2013

20120055434

IGNITER FOR IGNITING A FUEL-AIR-MIXTURE USING HF CORONA DISCHARGE AND ENGINE FITTED WITH SUCH IGNITERS - An igniter for igniting a fuel-air-mixture in a combustion chamber, in particular in a combustion engine with one or several combustion chambers, by generating a high frequency corona discharge, said ignitiger comprising an assembly comprising an ignition electrode, an outer conductor surrounding the ignition electrode, which has a front end and a rear end, and an electrical insulator arranged between the ignition electrode and the outer conductor, wherein the ignition electrode is part of an electrical high-frequency resonant circuit, protrudes over the front end of the outer conductor, and is connected to an alternate current source or alternate voltage source which feeds the HF-resonant circuit, and delivers a high frequency alternate current or a high frequency alternate voltage, respectively. The ignition electrode is branched into more than four electrode branches extending away from the outer conductor, in different directions.

03-08-2012

20140020646

GASKET FOR ATTACHING SPARK PLUG AND IGNITION SYSTEM - A gasket for attaching a spark plug to an internal combustion engine, the gasket having an annular portion. The annular portion is annular to surround the spark plug, and has contact surfaces on both axial ends, one of the contact surfaces being to contact the spark plug, the other being to contact the internal combustion engine. The annular portion is composed of copper alloy containing aluminum oxide. The aluminum oxide content of the copper alloy is 0.3 wt % or more, and 0.7 wt % or less.

01-23-2014

20110290208

HF Ignition Device - Described is an HF ignition device for igniting a fuel in an internal combustion engine, comprising a ceramic insulator which carries an ignition electrode and encloses an inner conductor leading to the ignition electrode, and an outer conductor which encloses the insulator and, together with a section of the inner conductor, forms a capacitor which is part of a circuit for the HF excitation of the ignition electrode. According to the invention, the insulator is part of a ceramic body which comprises an inner region which is composed of an electrically conductive ceramic and is enclosed by the insulator, and an outer region which is composed of an electrically conductive ceramic and encloses the insulator.

12-01-2011

20120180744

INTERNAL COMBUSTION ENGINE IGNITION DEVICE - The invention relates to an arrangement comprising an internal combustion engine ignition device having a spark plug and a spark plug seat in which the spark plug can be fastened in a fastening zone, and a cylinder head in which the spark plug is or can be mounted via the spark plug seat, the cylinder head having a cylinder head cooling cavity. The spark plug seat comprises a temperature control medium chamber which is separate from the cylinder head cooling cavity and has a medium feed line and a medium discharge line, the temperature control medium chamber and the cylinder head cooling cavity being connected to separate medium temperature control devices and forming separate medium systems.

07-19-2012

20120180743

CORONA IGNITER WITH MAGNETIC SCREENING - The invention relates to a corona ignitor device configured to be fixed within a combustion chamber, including a housing extending between an upper end and a lower end of the ignitor device. Inductor windings are received in the housing between the upper and lower ends, and a magnetic shield located between the housing and the inductor windings prevent magnetic flux from emanating out of the ignitor device.

07-19-2012

20110126789

EXCESS DEMAND VOLTAGE RELIEF SPARK PLUG FOR VEHICLE IGNITION SYSTEM - A vehicle ignition system is provided that alleviates the problems associated with excessive voltage demand by spark plugs. The ignition system has a spark plug with an electrode and a voltage relief feature operatively connected with the electrode. The voltage relief feature is operable to discharge current from the electrode at a predetermined voltage.

06-02-2011

20160007437

ELECTROMAGNETIC WAVE EMISSION DEVICE - The purpose of the present invention is to provide an electromagnetic wave emission device in which the destination to which an electromagnetic wave is supplied can be switched among a plurality of emission antennas, wherein there are no problems such as breakage of a switching element even in a case where a large-power electromagnetic wave is emitted. The present invention is an electromagnetic wave emission device characterized by the following: an electromagnetic wave output from an electromagnetic wave generator is distributed to a plurality of emission antennas, and then from among the plurality of emission antennas, a target antenna having plasma nearby is supplied with an electromagnetic wave distributed to the target antenna and all or part of the electromagnetic waves reflected by the emission antennas other than the target antenna; and the all or part of the electromagnetic waves distributed to the target antenna and all or part of the electromagnetic waves supplied to the target antenna after reflection by the emission antennas other than the target antenna are emitted from the target antenna to the plasma.

01-07-2016

20160076507

VENTED SPARK PLUG TUBE WITH FLAME ARRESTOR - A venting apparatus for combustion gas is provided, comprising a port formed in a valve cover having an inlet in flow communication with an enclosed volume within a spark plug tube that receives combustion gas build up, a check valve having an inlet in flow communication with an outlet of the port, and a flame arrestor having an inlet in flow communication with an outlet of the check valve, and a plurality of outlets. Combustion gas in the volume is vented through the check valve and the flame arrestor but a flame from ignition of the combustion gas in the volume is prevented from propagating through the flame arrestor to an outside environment.

03-17-2016

20090071429

SPARK PLUG AND INTERNAL COMBUSION ENGINE IN WHICH THE SPARK PLUG IS DISPOSED - To provide a spark plug with improved heat resistance and an internal combustion engine in which that spark plug is mounted where there is good conduction of the heat near the opening on the combustion chamber side of the mounting hole for the spark plug provided in the engine and the effects of thermal stress occurring near that opening are mitigated. A cylindrical part without threads formed thereon is provided on the leading end side of a metal housing of a spark plug and the thermal stress applied to a mounting hole is mitigated by avoiding close contact with the mounting hole of an engine head. Furthermore, the spark plug has a mounting structure in which the leading end surface of the cylindrical part is disposed 1.55 mm or more to the base end side in a mounting hole in the direction of the axial line O with respect to the wall surface inside the combustion chamber. By this means, the metal housing does not easily take up the heat that accompanies combustion of the air-fuel mixture inside the combustion chamber at the cylindrical, part so there may be good heat conduction.

Ignition spark plug - An ignition plug is disclosed which includes a hollow main cell having a bendable extension part and a primary combustion chamber, an insulator mounted in the main cell, to insulate a terminal rod centrally embedded in the main cell, a central electrode having a first electrical contact arranged in the primary combustion chamber, the central electrode extending downwardly from the terminal rod while being surrounded by the insulator, a second electrical contact provided at a lower inner surface of the main cell while being arranged in the primary combustion chamber, the second electrical contact corresponding to the first electrical contact, and a cross flame ignition valve coupled to the main cell by the extension part in a bent state of the extension part, the cross flame ignition valve having a main ignition hole and auxiliary ignition holes for guiding flames from the primary combustion chamber to an interior of a cylinder.

06-04-2009

20090025670

SPARK TO FLAME CONVERSION UNIT, SUCH AS EMPLOYED WITH AN EXISTING SPARK PLUG OR HEAT SOURCE SUPPLIED GLOW PLUG FOR ACCOMPLISHING MORE EFFICIENT PISTON COMBUSTION - A pre-chamber for use with a spark plug or glow plug, the chamber being secured at an upper end attachable unit associated with an internal combustion cylinder. The pre-chamber is designed to promote faster ionization resulting in more efficient spark to flame ignition (due to voltage buildup being delayed until a generated spark jumps the gap), or beat to flame ignition (due to the introduction temperature of the injected plasma) and, in each instance, results in faster propagation of flame within the compressed cylinder, thereby achieving more efficient and consistent (cycle to cycle) output in combination with lower exhaust temperatures. A plurality of outlet ports are defined, such as perimeter/radially extending fashion, in an outlet end of the pre chamber body and communicate the combusted fuels as a plurality of flame outlets with a remaining volume of atomized fuel within the combustion chamber during a power outlet stroke.

01-29-2009

20080295792

SPARK PLUG AND CYLINDER HEAD - A spark plug comprises a spark plug body, which carries two electrodes bordering a spark gap at one end, and exhibits a nut with external thread that can rotate around the spark plug body. A cylinder head exhibits a rotational coding complementary to the rotational coding of the spark plug body.

12-04-2008

20130291821

COMBUSTION CHAMBER STRUCTURE BY USING PREHEATING NET AND SPARK PLUG TO IGNITE - A combustion chamber structure by using a preheating net and a spark plug to ignite includes a cylinder. The cylinder is connected with a connection seat. The connection seat has a threaded hole. A spark plug is fixedly connected in the threaded hole. A preheating net is transversely disposed under the spark plug. A certain distance is defined between the spark plug and the preheating net. When electrified, the spark plug and the preheating net will generate an electric arc to rise the temperature of the preheating net and to preheat the mixing oil gas in the combustion chamber. The present invention enhances the burning efficiency. The oil gas in the combustion chamber is complete combustion to enhance horsepower and to save oil. Besides, the present invention can decrease the exhaust gas so it is environment-friendly.

11-07-2013

20100275870

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - A spark plug includes a center electrode extending along an axial line, a ground electrode, and a noble metal tip. A center axis of the noble metal tip is displaced from a center axis of the ground electrode toward a base-end side in the axial line. The ground electrode includes an outer layer and an inner layer, and a distal end of the inner layer is closer to the axial line than a base end of the ground electrode. An overlap area between the inner layer and the noble metal tip occupies a ratio of 25% or more in a projective plane defined by projecting, along the center axis, a plane of the ground electrode viewed from a distal-end face on a cross section of the ground electrode in which a maximum cross-sectional area of the inner layer is achieved, among cross sections orthogonal to the center axis.

Electrode for an Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

07-15-2010

20140345552

SPARK PLUG AND INTERNAL COMBUSTION ENGINE - To improve a heat conductance of an center electrode of a spark plug in which its center electrode protrudes to a combustion chamber from the defining surface of the chamber, the ignition plug includes a center electrode to where high voltage for spark discharge is applied; an insulator having a penetration hole to where the center electrode is fit; and an earth electrode that forms a discharge gap between the center electrode at where the spark discharge is generated. The center electrode protrudes from a defining surface of an internal combustion engine to a combustion chamber when the ignition plug is attached to the engine. The entirety of a main body of the center electrodes that is fixed by fitting into a penetration hole of the insulator is made of high heat conductance material having heat-conductivity of 250 W/mK or more.

11-27-2014

20140202413

SPARK IGNITION DEVICE FOR AN INTERNAL COMBUSTION ENGINE AND CENTRAL ELECTRODE ASSEMBLY THEREFORE - A spark ignition device includes a ceramic insulator with a metal shell surrounding at least a portion of the ceramic insulator. A ground electrode is attached to the shell. The ground electrode has a ground electrode sparking tip spaced from a central sparking tip by a spark gap. A first terminal is arranged in electrical communication with the central sparking tip and is configured for electrical connection with a power source. The device further includes a second terminal configured for electrical connection with the power source. The second terminal is spaced from the first terminal, with the second terminal being arranged in electrical communication with the first terminal. A heater element brings the first terminal in electrical communication with the second terminal and completes an electrical circuit. The heater element has a resistance greater than the first and second terminals thereby producing a significant source of heat.

07-24-2014

20150311678

SEALING RING FOR A SPARK PLUG OF AN INTERNAL COMBUSTION ENGINE, SPARK PLUG AND INTERNAL COMBUSTION ENGINE - A sealing ring for a spark plug that has an external thread for screwing into an internal combustion engine, a collar and a thread undercut between the external thread and the collar. The sealing ring includes a ring-shaped solid sealing element made from metal. The sealing element has two planar annular sealing surfaces that are arranged parallel to one another. An annular retaining element composed of an elastomer for engaging in the thread undercut of the spark plug in a self-retaining manner is attached to the sealing element on the inner ring side thereof. Also included is a spark plug comprising such a sealing ring, and an internal combustion engine comprising such spark plugs.

10-29-2015

20140144402

BARRIER DISCHARGE IGNITION APPARATUS FOR INTERNAL COMBUSTION ENGINE - A barrier discharge ignition apparatus has a tip end exposed to a combustion chamber of an internal combustion engine and, when subjected to a high-frequency high-voltage AC burst, generates streamer discharges for igniting a fuel/air mixture in the combustion chamber. A central electrode of the apparatus, covered by a dielectric layer and coaxially enclosed in a ground electrode, extends into the combustion chamber to a greater distance than the ground electrode. An electrode portion close to the tip end of the inner periphery of the ground electrode protrudes towards the dielectric layer, for creating a localized high-density electric field. The streamer discharges thereby enter both the to combustion chamber and also a discharge chamber of the ignition apparatus.

05-29-2014

20140083386

Spark Plug For An Internal Combustion Engine - Spark plug for an internal combustion engine, having a center electrode and a ground electrode. A spark gap is formed between the center electrode and ground electrode for igniting a fuel mixture by an electric ignition spark developing between the center electrode and the ground electrode. The center electrode and the ground electrode are contoured such that a ratio of a surface of the center electrode and the ground electrode, which is available for development of the ignition spark to a wear volume when an ignition spark is generated, is increased in such a way that an enlargement of the spark gap occurring as a result of wear when an ignition spark is generated is minimized.

03-27-2014

20110139107

SPARK IGNITION DEVICE FOR AN INTERNAL COMBUSTION ENGINE AND CENTRAL ELECTRODE ASSEMBLY THEREFOR - A spark ignition device includes a ceramic insulator with a metal shell surrounding at least a portion of the ceramic insulator. A ground electrode is attached to the shell. The ground electrode has a ground electrode sparking tip spaced from a central sparking tip by a spark gap. A first terminal is arranged in electrical communication with the central sparking tip and is configured for electrical connection with a power source. The device further includes a second terminal configured for electrical connection with the power source. The second terminal is spaced from the first terminal, with the second terminal being arranged in electrical communication with the first terminal. A heater element brings the first terminal in electrical communication with the second terminal and completes an electrical circuit. The heater element has a resistance greater than the first and second terminals thereby producing a significant source of heat.

06-16-2011

20090107440

Electrode For An Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

04-30-2009

20080308057

Electrode for an Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

12-18-2008

20110017163

SPARK PLUG - A spark plug is provided capable of speedily burn off carbon adhered on an insulator. With this spark plug, in order to improve the temperature rise performance of a front end side of an insulator

01-27-2011

20100242888

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - In a spark plug having a precious metal tip joined to the front end portion of a ground electrode, the stable junction state of the precious metal tip is guaranteed for a long time. A precious metal tip

09-30-2010

20100206256

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - There is provided a spark plug for an internal combustion engine, including: a center electrode extending in the direction of an axis of the spark plug and having a core of higher thermal expansion coefficient than that of a front end thereof, the center electrode including a flanged portion radially outwardly protruding on a rear side thereof and a cylindrical portion located closer to a front end of the spark plug than the flanged portion and being smaller in diameter than the flanged portion; an insulator having an axial hole in the direction of the axis to retain the flanged portion in the axial hole with the cylindrical portion held in a loose-fit state in the axial hole; and a metal shell accommodating the insulator, wherein the spark plug satisfies the following condition: Cb

08-19-2010

20120285409

IGNITER - An igniter for an internal combustion engine, the igniter comprising: a center electrode; an insulator disposed about the center electrode; a ground shield disposed about the insulator, the insulator having a tip portion extending past an end portion of the ground shield and a tip portion of the center electrode extending through and away from the tip portion of the insulator; and a spark gap disposed between the tip portion of the center electrode and the end portion of the ground shield.

11-15-2012

20100101520

Spark plug boot - A spark plug boot has a hollow resilient body defining an interior configured to hold a spark plug. At least one sealing ring circumscribes the outer surface of the body and is configured for being closely received in a spark plug well of an engine block. The ring defines a constant diameter around a 360 degree circumference and a variable thickness in a dimension parallel to the axis of the ring.

Spark Plug of an Internal Combustion Engine - A spark plug of internal, combustion engine is disclosed. The spark plug includes: a main body having main thread on lower outer side; an insulator mounted in a hollow portion of the main body; a ground electrode to correspond to a central electrode extending from the lower end of the terminal rod; a primary combustion chamber forming shell having female thread to be screw-coupled with the main thread, male thread to fix a combustion chamber, and an ejection hole; the primary combustion chamber formed between the main body and the primary combustion chamber forming shell and having changeable volume; and a heat exchange member disposed between the main body and the insulator to exchange heat caused by flame and to block leak of volatile gas; wherein the main ejection hole has a single main ejection hole and at least two auxiliary ejection holes formed around the main ejection hole.

PLASMA SPARK PLUG FOR AN INTERNAL COMBUSTION ENGINE - An essentially-elongated spark plug for an internal combustion engine of a motor vehicle, including: an essentially-capacitive lower part including two coaxial electrodes; an essentially-inductive upper part including a central mandrel, a coaxial winding around the mandrel, and an external tubular casing that serves as electromagnetic armour; and an insulant disposed radially between the casing and the winding. The essentially-inductive upper part includes a second internal casing of electromagnetic armour, which is disposed radially between the insulant and the external casing.

05-07-2009

123169000

Insulated electrodes

4

20110061624

IGNITION DEVICE ATTACHMENT STRUCTURE FOR INTERNAL COMBUSTION ENGINE - An ignition device attachment structure for an internal combustion engine includes an ignition plug tube inserted between a cylinder head cover and an ignition device insertion hole formed in a cylinder head of the internal combustion engine. The ignition plug tube bulges from an upper end of the ignition plug tube to an intermediate portion of the ignition plug tube on a lateral surface of the ignition plug tube.

Spark Plug - A spark plug for igniting a combustible gas mixture in an internal combustion engine includes an ignition electrode with an electrical supply line is connected thereto. A pipe housing is provided for enclosing the electrical supply line and a venting channel is provided for discharging combustion gases from the pipe housing. The venting channel provides for discharging combustion gases infiltrating the spark plug as leakage gases run along the supply line.

10-15-2009

20100147239

IGNITION ARRANGEMENT - An ignition arrangement for a combustion machine, which provides a corona discharge for ignition of a fuel/air mixture in the combustion chamber (

06-17-2010

20120125279

PRE-CHAMBER SPARK PLUG WITH TUBULAR ELECTRODE AND METHOD OF MANUFACTURING SAME - A pre-chamber spark plug that includes a shell, and an end cap attached to the shell. Additionally, the pre-chamber spark plug includes an insulator disposed within the shell. In a particular embodiment, a center electrode has a first portion surrounded by the insulator, and a second portion that extends from the insulator into a pre-chamber. The pre-chamber defined by the shell and end cap. In a further embodiment, a ground electrode is attached to the shell. In particular embodiments, the ground electrode is tubular in shape and includes an inner spark surface ring spaced in surrounding relation to the center electrode to create a spark gap, an outer ring attached to the shell, and a plurality of rounded spokes connecting the inner and outer rings. In a particular embodiment, the ground and center electrodes accommodate attachment of precious metal alloys to increase electrode surface life.

05-24-2012

20110056449

IGNITION COIL FOR VEHICLE - A secondary winding spool for an ignition coil has two segments, one residing within a spark plug well and the other having a larger diameter than the well and residing above the well, to maximize exploitation of coil space in an engine.

03-10-2011

20100319644

ENERGY EFFICIENT PLASMA GENERATION - A plasma ignition system is described herein that can produce plasma ionization around a spark plug gap using a single power circuit for the spark and plasma ionization. The system results in fewer components and higher reliability, allowing the system to be more easily integrated with existing ignition circuitry or in new ignition system designs. The plasma ignition system adds a one-way current path between the primary and secondary windings of the high voltage transformer. This allows energy stored within the capacitor after the creation of the spark to flow out of the capacitor, across the one-way current path, and through the spark plug gap. Thus, the plasma ignition system provides a dramatically better ignition spark with relatively little increase in components. The system does so without requiring a secondary power supply circuit to generate the current for producing plasma ionization.

12-23-2010

20140261273

CORONA IGNITION DEVICE - The invention relates to a corona ignition device for igniting fuel in a combustion chamber of an engine by means of a corona discharge, comprising a tubular housing, a coil arranged in the tubular housing, an insulator, which plugs into the tubular housing, and a center electrode, which is connected to the coil, plugs into the insulator and leads to at least one ignition tip. In order to increase the service life of the ignition tip, said ignition tip consists in part or completely of an iridium-based alloy containing 3 to 30% by weight of rhodium or is coated by a burn-up layer.

09-18-2014

20130269643

IGNITION APPARATUS AND IGNITION SYSTEM - An ignition apparatus which facilitates improvement in energy efficiency as well as materializing an excellent ignitability through effectively utilizing energy used for inductive discharge as a blowout power. The ignition apparatus is used for an ignition plug that includes a center electrode, a ground electrode and a cavity surrounding at least a portion of a clearance formed between the two electrodes to thereby form a discharge space. The ignition apparatus includes a voltage application portion which applies voltage to the clearance and a power supply portion which supplies electric power to the clearance. In addition, a capacitance portion for storing a capacitance is provided, in parallel with the ignition plug, in a voltage application path of the voltage application portion.

10-17-2013

20140318490

SPARK PLUG FOR INTERNAL COMBUSTION ENGINES AND MOUNTING STRUCTURE FOR THE SPARK PLUG - A spark plug for an internal combustion engine includes a housing, an insulation porcelain, a center electrode and a ground electrode. Both of a tip portion of the center electrode and an opposing portion of the ground electrode are provided with respective projection portions which are projected toward a spark discharge gap. At least one of the projection portions has an opposing face that confronts the spark discharge gap and is inclined with respect to a plane perpendicular to an axial direction of the plug. The spark discharge gap is configured to be gradually enlarged, in one direction perpendicular to the axial direction of the plug, from a narrow gap on one end side toward a wide gap on the other end side.

10-30-2014

20100175655

IGNITER SYSTEM FOR IGNITING FUEL - This invention provides a corona discharge fuel igniter system and methods for igniting fuel in an internal combustion engine. A ceramic dielectric material is provided that significantly increases the efficiency of corona discharge to ignite the fuel in an internal combustion engine.

07-15-2010

20100018488

VEHICLES INCLUDING FRAME DEFINING SPARK PLUG ACCESS APERTURE AND METHODS - A vehicle, such as a motorcycle, includes an engine and a frame. The engine includes a cylinder housing and a spark plug. The cylinder housing defines a spark plug aperture. The spark plug is received within the spark plug aperture. The frame supports the engine and comprises a frame member. The frame member is adjacent to the cylinder housing and defines an access aperture. The access aperture is substantially aligned with the spark plug aperture. The access aperture is configured to facilitate installation and removal of the spark plug with respect to the spark plug aperture. Methods of installing and replacing a spark plug are also provided.

01-28-2010

20100101521

SPARK PLUG AND INTERNAL COMBUSTION ENGINE PROVIDED WITH THE SAME - A spark plug comprising a cylindrical portion which projects into a combustion chamber from an inner wall face of an engine head when the spark plug is fixed to the engine head, wherein the cylindrical portion has one or more ventilating portion comprised of a through hole or a notch in an outer circumferential face thereof. An igniting portion projecting into the combustion chamber improves ignitability. Further, because an air-fuel mixture fed from an inlet of the internal combustion engine flows to inside of the cylindrical portion through the ventilating portion, heat of an insulator is taken away and cooled down, whereby an occurrence of pre-ignition is prevented.

04-29-2010

20100313841

CONTROL OF A PLURALITY OF PLUG COILS VIA A SINGLE POWER STAGE - A plasma generating device including: a supply circuit including a switch controlled by a control signal for applying an intermediate voltage on an output of the control circuit at a frequency defined by the control signal; a plurality of plasma-generating plug coils arranged in parallel on the output via connectors, each connector being adapted to be removably connected to a corresponding plug coil and including a mechanism adapted to offset the resonance frequency of the plug coil so that each plug coil has a distinct resonance frequency; a control device of the supply circuit, that determines the control frequency from the resonance frequencies of the plug coils to selectively control the plug coils according to the control frequency used.

12-16-2010

20090277410

SPARK PLUG - Projecting portions extended in an axis (O) direction and projecting forward are formed on a front end face of a cylindrical portion provided on a front end side of a metal shell. The projecting portions are disposed at an equal interval therebetween in a circumferential direction revolving around a center S of a firing portion. Regardless of the mounting state of a spark plug on an engine head (i.e., a shift in the circumferential direction caused by a difference in tightening of a fitting screw), a side face or an end face of any one of projecting portions will face an upstream side of a fuel (combustible air-fuel mixture layer) flow direction, which flows with an air current in a combustion chamber. Therefore, the combustible air-fuel mixture layer colliding with the projecting portion includes the flow direction directed to the firing portion as its reflective direction and is thus adrift around the firing portion.

11-12-2009

20090314239

IGNITION APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - An ignition apparatus for an internal combustion engine is small in size and has high reliability capable of withstanding or enduring a vibration environment of a vehicle to which the ignition apparatus is installed. The ignition apparatus includes a spark plug that has its tip end portion presented in the interior of a cylinder of an internal combustion engine main body, a high voltage generation power supply that serves to apply a high voltage to the spark plug, a microwave oscillation device that has an amplifying element for generating a microwave, and a microwave antenna that is mounted on the spark plug, irradiates the micro wave generated from the microwave oscillation device to the interior of the cylinder, thereby forming a plasma generation region around discharge electrodes of the spark plug. The microwave oscillation device is made into a solid state.

12-24-2009

20130098324

ASSEMBLY OF SPARK PLUG AND ENGINE MAIN BODY - An assembly includes an engine main body, a spark plug and a gasket. The spark plug is mounted to the engine main body by tightening a male-threaded portion of the spark plug into a female-threaded portion of the engine main body with the gasket elastically deformed between a seat surface of the engine main body and a seating surface of the spark plug. The gasket is made of a metallic material whose yield stress or 0.2% proof stress is not lower than 200 N/mm

04-25-2013

20120055434

IGNITER FOR IGNITING A FUEL-AIR-MIXTURE USING HF CORONA DISCHARGE AND ENGINE FITTED WITH SUCH IGNITERS - An igniter for igniting a fuel-air-mixture in a combustion chamber, in particular in a combustion engine with one or several combustion chambers, by generating a high frequency corona discharge, said ignitiger comprising an assembly comprising an ignition electrode, an outer conductor surrounding the ignition electrode, which has a front end and a rear end, and an electrical insulator arranged between the ignition electrode and the outer conductor, wherein the ignition electrode is part of an electrical high-frequency resonant circuit, protrudes over the front end of the outer conductor, and is connected to an alternate current source or alternate voltage source which feeds the HF-resonant circuit, and delivers a high frequency alternate current or a high frequency alternate voltage, respectively. The ignition electrode is branched into more than four electrode branches extending away from the outer conductor, in different directions.

03-08-2012

20140020646

GASKET FOR ATTACHING SPARK PLUG AND IGNITION SYSTEM - A gasket for attaching a spark plug to an internal combustion engine, the gasket having an annular portion. The annular portion is annular to surround the spark plug, and has contact surfaces on both axial ends, one of the contact surfaces being to contact the spark plug, the other being to contact the internal combustion engine. The annular portion is composed of copper alloy containing aluminum oxide. The aluminum oxide content of the copper alloy is 0.3 wt % or more, and 0.7 wt % or less.

01-23-2014

20110290208

HF Ignition Device - Described is an HF ignition device for igniting a fuel in an internal combustion engine, comprising a ceramic insulator which carries an ignition electrode and encloses an inner conductor leading to the ignition electrode, and an outer conductor which encloses the insulator and, together with a section of the inner conductor, forms a capacitor which is part of a circuit for the HF excitation of the ignition electrode. According to the invention, the insulator is part of a ceramic body which comprises an inner region which is composed of an electrically conductive ceramic and is enclosed by the insulator, and an outer region which is composed of an electrically conductive ceramic and encloses the insulator.

12-01-2011

20120180744

INTERNAL COMBUSTION ENGINE IGNITION DEVICE - The invention relates to an arrangement comprising an internal combustion engine ignition device having a spark plug and a spark plug seat in which the spark plug can be fastened in a fastening zone, and a cylinder head in which the spark plug is or can be mounted via the spark plug seat, the cylinder head having a cylinder head cooling cavity. The spark plug seat comprises a temperature control medium chamber which is separate from the cylinder head cooling cavity and has a medium feed line and a medium discharge line, the temperature control medium chamber and the cylinder head cooling cavity being connected to separate medium temperature control devices and forming separate medium systems.

07-19-2012

20120180743

CORONA IGNITER WITH MAGNETIC SCREENING - The invention relates to a corona ignitor device configured to be fixed within a combustion chamber, including a housing extending between an upper end and a lower end of the ignitor device. Inductor windings are received in the housing between the upper and lower ends, and a magnetic shield located between the housing and the inductor windings prevent magnetic flux from emanating out of the ignitor device.

07-19-2012

20110126789

EXCESS DEMAND VOLTAGE RELIEF SPARK PLUG FOR VEHICLE IGNITION SYSTEM - A vehicle ignition system is provided that alleviates the problems associated with excessive voltage demand by spark plugs. The ignition system has a spark plug with an electrode and a voltage relief feature operatively connected with the electrode. The voltage relief feature is operable to discharge current from the electrode at a predetermined voltage.

06-02-2011

20160007437

ELECTROMAGNETIC WAVE EMISSION DEVICE - The purpose of the present invention is to provide an electromagnetic wave emission device in which the destination to which an electromagnetic wave is supplied can be switched among a plurality of emission antennas, wherein there are no problems such as breakage of a switching element even in a case where a large-power electromagnetic wave is emitted. The present invention is an electromagnetic wave emission device characterized by the following: an electromagnetic wave output from an electromagnetic wave generator is distributed to a plurality of emission antennas, and then from among the plurality of emission antennas, a target antenna having plasma nearby is supplied with an electromagnetic wave distributed to the target antenna and all or part of the electromagnetic waves reflected by the emission antennas other than the target antenna; and the all or part of the electromagnetic waves distributed to the target antenna and all or part of the electromagnetic waves supplied to the target antenna after reflection by the emission antennas other than the target antenna are emitted from the target antenna to the plasma.

01-07-2016

20160076507

VENTED SPARK PLUG TUBE WITH FLAME ARRESTOR - A venting apparatus for combustion gas is provided, comprising a port formed in a valve cover having an inlet in flow communication with an enclosed volume within a spark plug tube that receives combustion gas build up, a check valve having an inlet in flow communication with an outlet of the port, and a flame arrestor having an inlet in flow communication with an outlet of the check valve, and a plurality of outlets. Combustion gas in the volume is vented through the check valve and the flame arrestor but a flame from ignition of the combustion gas in the volume is prevented from propagating through the flame arrestor to an outside environment.

03-17-2016

20090071429

SPARK PLUG AND INTERNAL COMBUSION ENGINE IN WHICH THE SPARK PLUG IS DISPOSED - To provide a spark plug with improved heat resistance and an internal combustion engine in which that spark plug is mounted where there is good conduction of the heat near the opening on the combustion chamber side of the mounting hole for the spark plug provided in the engine and the effects of thermal stress occurring near that opening are mitigated. A cylindrical part without threads formed thereon is provided on the leading end side of a metal housing of a spark plug and the thermal stress applied to a mounting hole is mitigated by avoiding close contact with the mounting hole of an engine head. Furthermore, the spark plug has a mounting structure in which the leading end surface of the cylindrical part is disposed 1.55 mm or more to the base end side in a mounting hole in the direction of the axial line O with respect to the wall surface inside the combustion chamber. By this means, the metal housing does not easily take up the heat that accompanies combustion of the air-fuel mixture inside the combustion chamber at the cylindrical, part so there may be good heat conduction.

Ignition spark plug - An ignition plug is disclosed which includes a hollow main cell having a bendable extension part and a primary combustion chamber, an insulator mounted in the main cell, to insulate a terminal rod centrally embedded in the main cell, a central electrode having a first electrical contact arranged in the primary combustion chamber, the central electrode extending downwardly from the terminal rod while being surrounded by the insulator, a second electrical contact provided at a lower inner surface of the main cell while being arranged in the primary combustion chamber, the second electrical contact corresponding to the first electrical contact, and a cross flame ignition valve coupled to the main cell by the extension part in a bent state of the extension part, the cross flame ignition valve having a main ignition hole and auxiliary ignition holes for guiding flames from the primary combustion chamber to an interior of a cylinder.

06-04-2009

20090025670

SPARK TO FLAME CONVERSION UNIT, SUCH AS EMPLOYED WITH AN EXISTING SPARK PLUG OR HEAT SOURCE SUPPLIED GLOW PLUG FOR ACCOMPLISHING MORE EFFICIENT PISTON COMBUSTION - A pre-chamber for use with a spark plug or glow plug, the chamber being secured at an upper end attachable unit associated with an internal combustion cylinder. The pre-chamber is designed to promote faster ionization resulting in more efficient spark to flame ignition (due to voltage buildup being delayed until a generated spark jumps the gap), or beat to flame ignition (due to the introduction temperature of the injected plasma) and, in each instance, results in faster propagation of flame within the compressed cylinder, thereby achieving more efficient and consistent (cycle to cycle) output in combination with lower exhaust temperatures. A plurality of outlet ports are defined, such as perimeter/radially extending fashion, in an outlet end of the pre chamber body and communicate the combusted fuels as a plurality of flame outlets with a remaining volume of atomized fuel within the combustion chamber during a power outlet stroke.

01-29-2009

20080295792

SPARK PLUG AND CYLINDER HEAD - A spark plug comprises a spark plug body, which carries two electrodes bordering a spark gap at one end, and exhibits a nut with external thread that can rotate around the spark plug body. A cylinder head exhibits a rotational coding complementary to the rotational coding of the spark plug body.

12-04-2008

20130291821

COMBUSTION CHAMBER STRUCTURE BY USING PREHEATING NET AND SPARK PLUG TO IGNITE - A combustion chamber structure by using a preheating net and a spark plug to ignite includes a cylinder. The cylinder is connected with a connection seat. The connection seat has a threaded hole. A spark plug is fixedly connected in the threaded hole. A preheating net is transversely disposed under the spark plug. A certain distance is defined between the spark plug and the preheating net. When electrified, the spark plug and the preheating net will generate an electric arc to rise the temperature of the preheating net and to preheat the mixing oil gas in the combustion chamber. The present invention enhances the burning efficiency. The oil gas in the combustion chamber is complete combustion to enhance horsepower and to save oil. Besides, the present invention can decrease the exhaust gas so it is environment-friendly.

11-07-2013

20100275870

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - A spark plug includes a center electrode extending along an axial line, a ground electrode, and a noble metal tip. A center axis of the noble metal tip is displaced from a center axis of the ground electrode toward a base-end side in the axial line. The ground electrode includes an outer layer and an inner layer, and a distal end of the inner layer is closer to the axial line than a base end of the ground electrode. An overlap area between the inner layer and the noble metal tip occupies a ratio of 25% or more in a projective plane defined by projecting, along the center axis, a plane of the ground electrode viewed from a distal-end face on a cross section of the ground electrode in which a maximum cross-sectional area of the inner layer is achieved, among cross sections orthogonal to the center axis.

Electrode for an Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

07-15-2010

20140345552

SPARK PLUG AND INTERNAL COMBUSTION ENGINE - To improve a heat conductance of an center electrode of a spark plug in which its center electrode protrudes to a combustion chamber from the defining surface of the chamber, the ignition plug includes a center electrode to where high voltage for spark discharge is applied; an insulator having a penetration hole to where the center electrode is fit; and an earth electrode that forms a discharge gap between the center electrode at where the spark discharge is generated. The center electrode protrudes from a defining surface of an internal combustion engine to a combustion chamber when the ignition plug is attached to the engine. The entirety of a main body of the center electrodes that is fixed by fitting into a penetration hole of the insulator is made of high heat conductance material having heat-conductivity of 250 W/mK or more.

11-27-2014

20140202413

SPARK IGNITION DEVICE FOR AN INTERNAL COMBUSTION ENGINE AND CENTRAL ELECTRODE ASSEMBLY THEREFORE - A spark ignition device includes a ceramic insulator with a metal shell surrounding at least a portion of the ceramic insulator. A ground electrode is attached to the shell. The ground electrode has a ground electrode sparking tip spaced from a central sparking tip by a spark gap. A first terminal is arranged in electrical communication with the central sparking tip and is configured for electrical connection with a power source. The device further includes a second terminal configured for electrical connection with the power source. The second terminal is spaced from the first terminal, with the second terminal being arranged in electrical communication with the first terminal. A heater element brings the first terminal in electrical communication with the second terminal and completes an electrical circuit. The heater element has a resistance greater than the first and second terminals thereby producing a significant source of heat.

07-24-2014

20150311678

SEALING RING FOR A SPARK PLUG OF AN INTERNAL COMBUSTION ENGINE, SPARK PLUG AND INTERNAL COMBUSTION ENGINE - A sealing ring for a spark plug that has an external thread for screwing into an internal combustion engine, a collar and a thread undercut between the external thread and the collar. The sealing ring includes a ring-shaped solid sealing element made from metal. The sealing element has two planar annular sealing surfaces that are arranged parallel to one another. An annular retaining element composed of an elastomer for engaging in the thread undercut of the spark plug in a self-retaining manner is attached to the sealing element on the inner ring side thereof. Also included is a spark plug comprising such a sealing ring, and an internal combustion engine comprising such spark plugs.

10-29-2015

20140144402

BARRIER DISCHARGE IGNITION APPARATUS FOR INTERNAL COMBUSTION ENGINE - A barrier discharge ignition apparatus has a tip end exposed to a combustion chamber of an internal combustion engine and, when subjected to a high-frequency high-voltage AC burst, generates streamer discharges for igniting a fuel/air mixture in the combustion chamber. A central electrode of the apparatus, covered by a dielectric layer and coaxially enclosed in a ground electrode, extends into the combustion chamber to a greater distance than the ground electrode. An electrode portion close to the tip end of the inner periphery of the ground electrode protrudes towards the dielectric layer, for creating a localized high-density electric field. The streamer discharges thereby enter both the to combustion chamber and also a discharge chamber of the ignition apparatus.

05-29-2014

20140083386

Spark Plug For An Internal Combustion Engine - Spark plug for an internal combustion engine, having a center electrode and a ground electrode. A spark gap is formed between the center electrode and ground electrode for igniting a fuel mixture by an electric ignition spark developing between the center electrode and the ground electrode. The center electrode and the ground electrode are contoured such that a ratio of a surface of the center electrode and the ground electrode, which is available for development of the ignition spark to a wear volume when an ignition spark is generated, is increased in such a way that an enlargement of the spark gap occurring as a result of wear when an ignition spark is generated is minimized.

03-27-2014

20110139107

SPARK IGNITION DEVICE FOR AN INTERNAL COMBUSTION ENGINE AND CENTRAL ELECTRODE ASSEMBLY THEREFOR - A spark ignition device includes a ceramic insulator with a metal shell surrounding at least a portion of the ceramic insulator. A ground electrode is attached to the shell. The ground electrode has a ground electrode sparking tip spaced from a central sparking tip by a spark gap. A first terminal is arranged in electrical communication with the central sparking tip and is configured for electrical connection with a power source. The device further includes a second terminal configured for electrical connection with the power source. The second terminal is spaced from the first terminal, with the second terminal being arranged in electrical communication with the first terminal. A heater element brings the first terminal in electrical communication with the second terminal and completes an electrical circuit. The heater element has a resistance greater than the first and second terminals thereby producing a significant source of heat.

06-16-2011

20090107440

Electrode For An Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

04-30-2009

20080308057

Electrode for an Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

12-18-2008

20110017163

SPARK PLUG - A spark plug is provided capable of speedily burn off carbon adhered on an insulator. With this spark plug, in order to improve the temperature rise performance of a front end side of an insulator

01-27-2011

20100242888

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - In a spark plug having a precious metal tip joined to the front end portion of a ground electrode, the stable junction state of the precious metal tip is guaranteed for a long time. A precious metal tip

09-30-2010

20100206256

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - There is provided a spark plug for an internal combustion engine, including: a center electrode extending in the direction of an axis of the spark plug and having a core of higher thermal expansion coefficient than that of a front end thereof, the center electrode including a flanged portion radially outwardly protruding on a rear side thereof and a cylindrical portion located closer to a front end of the spark plug than the flanged portion and being smaller in diameter than the flanged portion; an insulator having an axial hole in the direction of the axis to retain the flanged portion in the axial hole with the cylindrical portion held in a loose-fit state in the axial hole; and a metal shell accommodating the insulator, wherein the spark plug satisfies the following condition: Cb

08-19-2010

20120285409

IGNITER - An igniter for an internal combustion engine, the igniter comprising: a center electrode; an insulator disposed about the center electrode; a ground shield disposed about the insulator, the insulator having a tip portion extending past an end portion of the ground shield and a tip portion of the center electrode extending through and away from the tip portion of the insulator; and a spark gap disposed between the tip portion of the center electrode and the end portion of the ground shield.

11-15-2012

20100101520

Spark plug boot - A spark plug boot has a hollow resilient body defining an interior configured to hold a spark plug. At least one sealing ring circumscribes the outer surface of the body and is configured for being closely received in a spark plug well of an engine block. The ring defines a constant diameter around a 360 degree circumference and a variable thickness in a dimension parallel to the axis of the ring.

Spark Plug of an Internal Combustion Engine - A spark plug of internal, combustion engine is disclosed. The spark plug includes: a main body having main thread on lower outer side; an insulator mounted in a hollow portion of the main body; a ground electrode to correspond to a central electrode extending from the lower end of the terminal rod; a primary combustion chamber forming shell having female thread to be screw-coupled with the main thread, male thread to fix a combustion chamber, and an ejection hole; the primary combustion chamber formed between the main body and the primary combustion chamber forming shell and having changeable volume; and a heat exchange member disposed between the main body and the insulator to exchange heat caused by flame and to block leak of volatile gas; wherein the main ejection hole has a single main ejection hole and at least two auxiliary ejection holes formed around the main ejection hole.

PLASMA SPARK PLUG FOR AN INTERNAL COMBUSTION ENGINE - An essentially-elongated spark plug for an internal combustion engine of a motor vehicle, including: an essentially-capacitive lower part including two coaxial electrodes; an essentially-inductive upper part including a central mandrel, a coaxial winding around the mandrel, and an external tubular casing that serves as electromagnetic armour; and an insulant disposed radially between the casing and the winding. The essentially-inductive upper part includes a second internal casing of electromagnetic armour, which is disposed radially between the insulant and the external casing.

05-07-2009

123169000

Insulating protecting

5

20110061624

IGNITION DEVICE ATTACHMENT STRUCTURE FOR INTERNAL COMBUSTION ENGINE - An ignition device attachment structure for an internal combustion engine includes an ignition plug tube inserted between a cylinder head cover and an ignition device insertion hole formed in a cylinder head of the internal combustion engine. The ignition plug tube bulges from an upper end of the ignition plug tube to an intermediate portion of the ignition plug tube on a lateral surface of the ignition plug tube.

Spark Plug - A spark plug for igniting a combustible gas mixture in an internal combustion engine includes an ignition electrode with an electrical supply line is connected thereto. A pipe housing is provided for enclosing the electrical supply line and a venting channel is provided for discharging combustion gases from the pipe housing. The venting channel provides for discharging combustion gases infiltrating the spark plug as leakage gases run along the supply line.

10-15-2009

20100147239

IGNITION ARRANGEMENT - An ignition arrangement for a combustion machine, which provides a corona discharge for ignition of a fuel/air mixture in the combustion chamber (

06-17-2010

20120125279

PRE-CHAMBER SPARK PLUG WITH TUBULAR ELECTRODE AND METHOD OF MANUFACTURING SAME - A pre-chamber spark plug that includes a shell, and an end cap attached to the shell. Additionally, the pre-chamber spark plug includes an insulator disposed within the shell. In a particular embodiment, a center electrode has a first portion surrounded by the insulator, and a second portion that extends from the insulator into a pre-chamber. The pre-chamber defined by the shell and end cap. In a further embodiment, a ground electrode is attached to the shell. In particular embodiments, the ground electrode is tubular in shape and includes an inner spark surface ring spaced in surrounding relation to the center electrode to create a spark gap, an outer ring attached to the shell, and a plurality of rounded spokes connecting the inner and outer rings. In a particular embodiment, the ground and center electrodes accommodate attachment of precious metal alloys to increase electrode surface life.

05-24-2012

20110056449

IGNITION COIL FOR VEHICLE - A secondary winding spool for an ignition coil has two segments, one residing within a spark plug well and the other having a larger diameter than the well and residing above the well, to maximize exploitation of coil space in an engine.

03-10-2011

20100319644

ENERGY EFFICIENT PLASMA GENERATION - A plasma ignition system is described herein that can produce plasma ionization around a spark plug gap using a single power circuit for the spark and plasma ionization. The system results in fewer components and higher reliability, allowing the system to be more easily integrated with existing ignition circuitry or in new ignition system designs. The plasma ignition system adds a one-way current path between the primary and secondary windings of the high voltage transformer. This allows energy stored within the capacitor after the creation of the spark to flow out of the capacitor, across the one-way current path, and through the spark plug gap. Thus, the plasma ignition system provides a dramatically better ignition spark with relatively little increase in components. The system does so without requiring a secondary power supply circuit to generate the current for producing plasma ionization.

12-23-2010

20140261273

CORONA IGNITION DEVICE - The invention relates to a corona ignition device for igniting fuel in a combustion chamber of an engine by means of a corona discharge, comprising a tubular housing, a coil arranged in the tubular housing, an insulator, which plugs into the tubular housing, and a center electrode, which is connected to the coil, plugs into the insulator and leads to at least one ignition tip. In order to increase the service life of the ignition tip, said ignition tip consists in part or completely of an iridium-based alloy containing 3 to 30% by weight of rhodium or is coated by a burn-up layer.

09-18-2014

20130269643

IGNITION APPARATUS AND IGNITION SYSTEM - An ignition apparatus which facilitates improvement in energy efficiency as well as materializing an excellent ignitability through effectively utilizing energy used for inductive discharge as a blowout power. The ignition apparatus is used for an ignition plug that includes a center electrode, a ground electrode and a cavity surrounding at least a portion of a clearance formed between the two electrodes to thereby form a discharge space. The ignition apparatus includes a voltage application portion which applies voltage to the clearance and a power supply portion which supplies electric power to the clearance. In addition, a capacitance portion for storing a capacitance is provided, in parallel with the ignition plug, in a voltage application path of the voltage application portion.

10-17-2013

20140318490

SPARK PLUG FOR INTERNAL COMBUSTION ENGINES AND MOUNTING STRUCTURE FOR THE SPARK PLUG - A spark plug for an internal combustion engine includes a housing, an insulation porcelain, a center electrode and a ground electrode. Both of a tip portion of the center electrode and an opposing portion of the ground electrode are provided with respective projection portions which are projected toward a spark discharge gap. At least one of the projection portions has an opposing face that confronts the spark discharge gap and is inclined with respect to a plane perpendicular to an axial direction of the plug. The spark discharge gap is configured to be gradually enlarged, in one direction perpendicular to the axial direction of the plug, from a narrow gap on one end side toward a wide gap on the other end side.

10-30-2014

20100175655

IGNITER SYSTEM FOR IGNITING FUEL - This invention provides a corona discharge fuel igniter system and methods for igniting fuel in an internal combustion engine. A ceramic dielectric material is provided that significantly increases the efficiency of corona discharge to ignite the fuel in an internal combustion engine.

07-15-2010

20100018488

VEHICLES INCLUDING FRAME DEFINING SPARK PLUG ACCESS APERTURE AND METHODS - A vehicle, such as a motorcycle, includes an engine and a frame. The engine includes a cylinder housing and a spark plug. The cylinder housing defines a spark plug aperture. The spark plug is received within the spark plug aperture. The frame supports the engine and comprises a frame member. The frame member is adjacent to the cylinder housing and defines an access aperture. The access aperture is substantially aligned with the spark plug aperture. The access aperture is configured to facilitate installation and removal of the spark plug with respect to the spark plug aperture. Methods of installing and replacing a spark plug are also provided.

01-28-2010

20100101521

SPARK PLUG AND INTERNAL COMBUSTION ENGINE PROVIDED WITH THE SAME - A spark plug comprising a cylindrical portion which projects into a combustion chamber from an inner wall face of an engine head when the spark plug is fixed to the engine head, wherein the cylindrical portion has one or more ventilating portion comprised of a through hole or a notch in an outer circumferential face thereof. An igniting portion projecting into the combustion chamber improves ignitability. Further, because an air-fuel mixture fed from an inlet of the internal combustion engine flows to inside of the cylindrical portion through the ventilating portion, heat of an insulator is taken away and cooled down, whereby an occurrence of pre-ignition is prevented.

04-29-2010

20100313841

CONTROL OF A PLURALITY OF PLUG COILS VIA A SINGLE POWER STAGE - A plasma generating device including: a supply circuit including a switch controlled by a control signal for applying an intermediate voltage on an output of the control circuit at a frequency defined by the control signal; a plurality of plasma-generating plug coils arranged in parallel on the output via connectors, each connector being adapted to be removably connected to a corresponding plug coil and including a mechanism adapted to offset the resonance frequency of the plug coil so that each plug coil has a distinct resonance frequency; a control device of the supply circuit, that determines the control frequency from the resonance frequencies of the plug coils to selectively control the plug coils according to the control frequency used.

12-16-2010

20090277410

SPARK PLUG - Projecting portions extended in an axis (O) direction and projecting forward are formed on a front end face of a cylindrical portion provided on a front end side of a metal shell. The projecting portions are disposed at an equal interval therebetween in a circumferential direction revolving around a center S of a firing portion. Regardless of the mounting state of a spark plug on an engine head (i.e., a shift in the circumferential direction caused by a difference in tightening of a fitting screw), a side face or an end face of any one of projecting portions will face an upstream side of a fuel (combustible air-fuel mixture layer) flow direction, which flows with an air current in a combustion chamber. Therefore, the combustible air-fuel mixture layer colliding with the projecting portion includes the flow direction directed to the firing portion as its reflective direction and is thus adrift around the firing portion.

11-12-2009

20090314239

IGNITION APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - An ignition apparatus for an internal combustion engine is small in size and has high reliability capable of withstanding or enduring a vibration environment of a vehicle to which the ignition apparatus is installed. The ignition apparatus includes a spark plug that has its tip end portion presented in the interior of a cylinder of an internal combustion engine main body, a high voltage generation power supply that serves to apply a high voltage to the spark plug, a microwave oscillation device that has an amplifying element for generating a microwave, and a microwave antenna that is mounted on the spark plug, irradiates the micro wave generated from the microwave oscillation device to the interior of the cylinder, thereby forming a plasma generation region around discharge electrodes of the spark plug. The microwave oscillation device is made into a solid state.

12-24-2009

20130098324

ASSEMBLY OF SPARK PLUG AND ENGINE MAIN BODY - An assembly includes an engine main body, a spark plug and a gasket. The spark plug is mounted to the engine main body by tightening a male-threaded portion of the spark plug into a female-threaded portion of the engine main body with the gasket elastically deformed between a seat surface of the engine main body and a seating surface of the spark plug. The gasket is made of a metallic material whose yield stress or 0.2% proof stress is not lower than 200 N/mm

04-25-2013

20120055434

IGNITER FOR IGNITING A FUEL-AIR-MIXTURE USING HF CORONA DISCHARGE AND ENGINE FITTED WITH SUCH IGNITERS - An igniter for igniting a fuel-air-mixture in a combustion chamber, in particular in a combustion engine with one or several combustion chambers, by generating a high frequency corona discharge, said ignitiger comprising an assembly comprising an ignition electrode, an outer conductor surrounding the ignition electrode, which has a front end and a rear end, and an electrical insulator arranged between the ignition electrode and the outer conductor, wherein the ignition electrode is part of an electrical high-frequency resonant circuit, protrudes over the front end of the outer conductor, and is connected to an alternate current source or alternate voltage source which feeds the HF-resonant circuit, and delivers a high frequency alternate current or a high frequency alternate voltage, respectively. The ignition electrode is branched into more than four electrode branches extending away from the outer conductor, in different directions.

03-08-2012

20140020646

GASKET FOR ATTACHING SPARK PLUG AND IGNITION SYSTEM - A gasket for attaching a spark plug to an internal combustion engine, the gasket having an annular portion. The annular portion is annular to surround the spark plug, and has contact surfaces on both axial ends, one of the contact surfaces being to contact the spark plug, the other being to contact the internal combustion engine. The annular portion is composed of copper alloy containing aluminum oxide. The aluminum oxide content of the copper alloy is 0.3 wt % or more, and 0.7 wt % or less.

01-23-2014

20110290208

HF Ignition Device - Described is an HF ignition device for igniting a fuel in an internal combustion engine, comprising a ceramic insulator which carries an ignition electrode and encloses an inner conductor leading to the ignition electrode, and an outer conductor which encloses the insulator and, together with a section of the inner conductor, forms a capacitor which is part of a circuit for the HF excitation of the ignition electrode. According to the invention, the insulator is part of a ceramic body which comprises an inner region which is composed of an electrically conductive ceramic and is enclosed by the insulator, and an outer region which is composed of an electrically conductive ceramic and encloses the insulator.

12-01-2011

20120180744

INTERNAL COMBUSTION ENGINE IGNITION DEVICE - The invention relates to an arrangement comprising an internal combustion engine ignition device having a spark plug and a spark plug seat in which the spark plug can be fastened in a fastening zone, and a cylinder head in which the spark plug is or can be mounted via the spark plug seat, the cylinder head having a cylinder head cooling cavity. The spark plug seat comprises a temperature control medium chamber which is separate from the cylinder head cooling cavity and has a medium feed line and a medium discharge line, the temperature control medium chamber and the cylinder head cooling cavity being connected to separate medium temperature control devices and forming separate medium systems.

07-19-2012

20120180743

CORONA IGNITER WITH MAGNETIC SCREENING - The invention relates to a corona ignitor device configured to be fixed within a combustion chamber, including a housing extending between an upper end and a lower end of the ignitor device. Inductor windings are received in the housing between the upper and lower ends, and a magnetic shield located between the housing and the inductor windings prevent magnetic flux from emanating out of the ignitor device.

07-19-2012

20110126789

EXCESS DEMAND VOLTAGE RELIEF SPARK PLUG FOR VEHICLE IGNITION SYSTEM - A vehicle ignition system is provided that alleviates the problems associated with excessive voltage demand by spark plugs. The ignition system has a spark plug with an electrode and a voltage relief feature operatively connected with the electrode. The voltage relief feature is operable to discharge current from the electrode at a predetermined voltage.

06-02-2011

20160007437

ELECTROMAGNETIC WAVE EMISSION DEVICE - The purpose of the present invention is to provide an electromagnetic wave emission device in which the destination to which an electromagnetic wave is supplied can be switched among a plurality of emission antennas, wherein there are no problems such as breakage of a switching element even in a case where a large-power electromagnetic wave is emitted. The present invention is an electromagnetic wave emission device characterized by the following: an electromagnetic wave output from an electromagnetic wave generator is distributed to a plurality of emission antennas, and then from among the plurality of emission antennas, a target antenna having plasma nearby is supplied with an electromagnetic wave distributed to the target antenna and all or part of the electromagnetic waves reflected by the emission antennas other than the target antenna; and the all or part of the electromagnetic waves distributed to the target antenna and all or part of the electromagnetic waves supplied to the target antenna after reflection by the emission antennas other than the target antenna are emitted from the target antenna to the plasma.

01-07-2016

20160076507

VENTED SPARK PLUG TUBE WITH FLAME ARRESTOR - A venting apparatus for combustion gas is provided, comprising a port formed in a valve cover having an inlet in flow communication with an enclosed volume within a spark plug tube that receives combustion gas build up, a check valve having an inlet in flow communication with an outlet of the port, and a flame arrestor having an inlet in flow communication with an outlet of the check valve, and a plurality of outlets. Combustion gas in the volume is vented through the check valve and the flame arrestor but a flame from ignition of the combustion gas in the volume is prevented from propagating through the flame arrestor to an outside environment.

03-17-2016

20090071429

SPARK PLUG AND INTERNAL COMBUSION ENGINE IN WHICH THE SPARK PLUG IS DISPOSED - To provide a spark plug with improved heat resistance and an internal combustion engine in which that spark plug is mounted where there is good conduction of the heat near the opening on the combustion chamber side of the mounting hole for the spark plug provided in the engine and the effects of thermal stress occurring near that opening are mitigated. A cylindrical part without threads formed thereon is provided on the leading end side of a metal housing of a spark plug and the thermal stress applied to a mounting hole is mitigated by avoiding close contact with the mounting hole of an engine head. Furthermore, the spark plug has a mounting structure in which the leading end surface of the cylindrical part is disposed 1.55 mm or more to the base end side in a mounting hole in the direction of the axial line O with respect to the wall surface inside the combustion chamber. By this means, the metal housing does not easily take up the heat that accompanies combustion of the air-fuel mixture inside the combustion chamber at the cylindrical, part so there may be good heat conduction.

Ignition spark plug - An ignition plug is disclosed which includes a hollow main cell having a bendable extension part and a primary combustion chamber, an insulator mounted in the main cell, to insulate a terminal rod centrally embedded in the main cell, a central electrode having a first electrical contact arranged in the primary combustion chamber, the central electrode extending downwardly from the terminal rod while being surrounded by the insulator, a second electrical contact provided at a lower inner surface of the main cell while being arranged in the primary combustion chamber, the second electrical contact corresponding to the first electrical contact, and a cross flame ignition valve coupled to the main cell by the extension part in a bent state of the extension part, the cross flame ignition valve having a main ignition hole and auxiliary ignition holes for guiding flames from the primary combustion chamber to an interior of a cylinder.

06-04-2009

20090025670

SPARK TO FLAME CONVERSION UNIT, SUCH AS EMPLOYED WITH AN EXISTING SPARK PLUG OR HEAT SOURCE SUPPLIED GLOW PLUG FOR ACCOMPLISHING MORE EFFICIENT PISTON COMBUSTION - A pre-chamber for use with a spark plug or glow plug, the chamber being secured at an upper end attachable unit associated with an internal combustion cylinder. The pre-chamber is designed to promote faster ionization resulting in more efficient spark to flame ignition (due to voltage buildup being delayed until a generated spark jumps the gap), or beat to flame ignition (due to the introduction temperature of the injected plasma) and, in each instance, results in faster propagation of flame within the compressed cylinder, thereby achieving more efficient and consistent (cycle to cycle) output in combination with lower exhaust temperatures. A plurality of outlet ports are defined, such as perimeter/radially extending fashion, in an outlet end of the pre chamber body and communicate the combusted fuels as a plurality of flame outlets with a remaining volume of atomized fuel within the combustion chamber during a power outlet stroke.

01-29-2009

20080295792

SPARK PLUG AND CYLINDER HEAD - A spark plug comprises a spark plug body, which carries two electrodes bordering a spark gap at one end, and exhibits a nut with external thread that can rotate around the spark plug body. A cylinder head exhibits a rotational coding complementary to the rotational coding of the spark plug body.

12-04-2008

20130291821

COMBUSTION CHAMBER STRUCTURE BY USING PREHEATING NET AND SPARK PLUG TO IGNITE - A combustion chamber structure by using a preheating net and a spark plug to ignite includes a cylinder. The cylinder is connected with a connection seat. The connection seat has a threaded hole. A spark plug is fixedly connected in the threaded hole. A preheating net is transversely disposed under the spark plug. A certain distance is defined between the spark plug and the preheating net. When electrified, the spark plug and the preheating net will generate an electric arc to rise the temperature of the preheating net and to preheat the mixing oil gas in the combustion chamber. The present invention enhances the burning efficiency. The oil gas in the combustion chamber is complete combustion to enhance horsepower and to save oil. Besides, the present invention can decrease the exhaust gas so it is environment-friendly.

11-07-2013

20100275870

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - A spark plug includes a center electrode extending along an axial line, a ground electrode, and a noble metal tip. A center axis of the noble metal tip is displaced from a center axis of the ground electrode toward a base-end side in the axial line. The ground electrode includes an outer layer and an inner layer, and a distal end of the inner layer is closer to the axial line than a base end of the ground electrode. An overlap area between the inner layer and the noble metal tip occupies a ratio of 25% or more in a projective plane defined by projecting, along the center axis, a plane of the ground electrode viewed from a distal-end face on a cross section of the ground electrode in which a maximum cross-sectional area of the inner layer is achieved, among cross sections orthogonal to the center axis.

Electrode for an Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

07-15-2010

20140345552

SPARK PLUG AND INTERNAL COMBUSTION ENGINE - To improve a heat conductance of an center electrode of a spark plug in which its center electrode protrudes to a combustion chamber from the defining surface of the chamber, the ignition plug includes a center electrode to where high voltage for spark discharge is applied; an insulator having a penetration hole to where the center electrode is fit; and an earth electrode that forms a discharge gap between the center electrode at where the spark discharge is generated. The center electrode protrudes from a defining surface of an internal combustion engine to a combustion chamber when the ignition plug is attached to the engine. The entirety of a main body of the center electrodes that is fixed by fitting into a penetration hole of the insulator is made of high heat conductance material having heat-conductivity of 250 W/mK or more.

11-27-2014

20140202413

SPARK IGNITION DEVICE FOR AN INTERNAL COMBUSTION ENGINE AND CENTRAL ELECTRODE ASSEMBLY THEREFORE - A spark ignition device includes a ceramic insulator with a metal shell surrounding at least a portion of the ceramic insulator. A ground electrode is attached to the shell. The ground electrode has a ground electrode sparking tip spaced from a central sparking tip by a spark gap. A first terminal is arranged in electrical communication with the central sparking tip and is configured for electrical connection with a power source. The device further includes a second terminal configured for electrical connection with the power source. The second terminal is spaced from the first terminal, with the second terminal being arranged in electrical communication with the first terminal. A heater element brings the first terminal in electrical communication with the second terminal and completes an electrical circuit. The heater element has a resistance greater than the first and second terminals thereby producing a significant source of heat.

07-24-2014

20150311678

SEALING RING FOR A SPARK PLUG OF AN INTERNAL COMBUSTION ENGINE, SPARK PLUG AND INTERNAL COMBUSTION ENGINE - A sealing ring for a spark plug that has an external thread for screwing into an internal combustion engine, a collar and a thread undercut between the external thread and the collar. The sealing ring includes a ring-shaped solid sealing element made from metal. The sealing element has two planar annular sealing surfaces that are arranged parallel to one another. An annular retaining element composed of an elastomer for engaging in the thread undercut of the spark plug in a self-retaining manner is attached to the sealing element on the inner ring side thereof. Also included is a spark plug comprising such a sealing ring, and an internal combustion engine comprising such spark plugs.

10-29-2015

20140144402

BARRIER DISCHARGE IGNITION APPARATUS FOR INTERNAL COMBUSTION ENGINE - A barrier discharge ignition apparatus has a tip end exposed to a combustion chamber of an internal combustion engine and, when subjected to a high-frequency high-voltage AC burst, generates streamer discharges for igniting a fuel/air mixture in the combustion chamber. A central electrode of the apparatus, covered by a dielectric layer and coaxially enclosed in a ground electrode, extends into the combustion chamber to a greater distance than the ground electrode. An electrode portion close to the tip end of the inner periphery of the ground electrode protrudes towards the dielectric layer, for creating a localized high-density electric field. The streamer discharges thereby enter both the to combustion chamber and also a discharge chamber of the ignition apparatus.

05-29-2014

20140083386

Spark Plug For An Internal Combustion Engine - Spark plug for an internal combustion engine, having a center electrode and a ground electrode. A spark gap is formed between the center electrode and ground electrode for igniting a fuel mixture by an electric ignition spark developing between the center electrode and the ground electrode. The center electrode and the ground electrode are contoured such that a ratio of a surface of the center electrode and the ground electrode, which is available for development of the ignition spark to a wear volume when an ignition spark is generated, is increased in such a way that an enlargement of the spark gap occurring as a result of wear when an ignition spark is generated is minimized.

03-27-2014

20110139107

SPARK IGNITION DEVICE FOR AN INTERNAL COMBUSTION ENGINE AND CENTRAL ELECTRODE ASSEMBLY THEREFOR - A spark ignition device includes a ceramic insulator with a metal shell surrounding at least a portion of the ceramic insulator. A ground electrode is attached to the shell. The ground electrode has a ground electrode sparking tip spaced from a central sparking tip by a spark gap. A first terminal is arranged in electrical communication with the central sparking tip and is configured for electrical connection with a power source. The device further includes a second terminal configured for electrical connection with the power source. The second terminal is spaced from the first terminal, with the second terminal being arranged in electrical communication with the first terminal. A heater element brings the first terminal in electrical communication with the second terminal and completes an electrical circuit. The heater element has a resistance greater than the first and second terminals thereby producing a significant source of heat.

06-16-2011

20090107440

Electrode For An Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

04-30-2009

20080308057

Electrode for an Ignition Device - An electrode for an ignition device is made from a dilute nickel alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture and includes at least 90% by weight of nickel; zirconium; boron and at least one element from the group consisting of aluminum, magnesium, silicon, chromium, titanium and manganese. The weight ratio of Zr/B may range from about 0.5 to 150, and may include amounts of, by weight of the alloy, 0.05-0.5% zirconium and 0.001-0.01% boron. The oxidation resistance of the alloy may also be improved by the addition of hafnium to the alloy in an amount that is comparable to the amount of zirconium, which may include an amount of, by weight of the alloy, 0.005-0.2% hafnium. Electrodes of dilute nickel alloys which include aluminum and silicon, as well as those which include chromium, silicon, manganese and titanium, are particularly useful as spark plug electrodes. These electrode alloys of the may also include at least one of cobalt, niobium, vanadium, molybdenum, tungsten, copper, iron, carbon, calcium, phosphorus or sulfur as trace elements, generally with specified maximum amounts. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, center electrode and ground electrode. The center electrode, ground electrode, or both, may be made from the dilute nickel alloy of the invention. These electrodes may also include a core with thermal conductivity greater than that of the dilute nickel alloy, such as copper or silver or their alloys.

12-18-2008

20110017163

SPARK PLUG - A spark plug is provided capable of speedily burn off carbon adhered on an insulator. With this spark plug, in order to improve the temperature rise performance of a front end side of an insulator

01-27-2011

20100242888

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - In a spark plug having a precious metal tip joined to the front end portion of a ground electrode, the stable junction state of the precious metal tip is guaranteed for a long time. A precious metal tip

09-30-2010

20100206256

SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - There is provided a spark plug for an internal combustion engine, including: a center electrode extending in the direction of an axis of the spark plug and having a core of higher thermal expansion coefficient than that of a front end thereof, the center electrode including a flanged portion radially outwardly protruding on a rear side thereof and a cylindrical portion located closer to a front end of the spark plug than the flanged portion and being smaller in diameter than the flanged portion; an insulator having an axial hole in the direction of the axis to retain the flanged portion in the axial hole with the cylindrical portion held in a loose-fit state in the axial hole; and a metal shell accommodating the insulator, wherein the spark plug satisfies the following condition: Cb

08-19-2010

20120285409

IGNITER - An igniter for an internal combustion engine, the igniter comprising: a center electrode; an insulator disposed about the center electrode; a ground shield disposed about the insulator, the insulator having a tip portion extending past an end portion of the ground shield and a tip portion of the center electrode extending through and away from the tip portion of the insulator; and a spark gap disposed between the tip portion of the center electrode and the end portion of the ground shield.

11-15-2012

20100101520

Spark plug boot - A spark plug boot has a hollow resilient body defining an interior configured to hold a spark plug. At least one sealing ring circumscribes the outer surface of the body and is configured for being closely received in a spark plug well of an engine block. The ring defines a constant diameter around a 360 degree circumference and a variable thickness in a dimension parallel to the axis of the ring.

Spark Plug of an Internal Combustion Engine - A spark plug of internal, combustion engine is disclosed. The spark plug includes: a main body having main thread on lower outer side; an insulator mounted in a hollow portion of the main body; a ground electrode to correspond to a central electrode extending from the lower end of the terminal rod; a primary combustion chamber forming shell having female thread to be screw-coupled with the main thread, male thread to fix a combustion chamber, and an ejection hole; the primary combustion chamber formed between the main body and the primary combustion chamber forming shell and having changeable volume; and a heat exchange member disposed between the main body and the insulator to exchange heat caused by flame and to block leak of volatile gas; wherein the main ejection hole has a single main ejection hole and at least two auxiliary ejection holes formed around the main ejection hole.

PLASMA SPARK PLUG FOR AN INTERNAL COMBUSTION ENGINE - An essentially-elongated spark plug for an internal combustion engine of a motor vehicle, including: an essentially-capacitive lower part including two coaxial electrodes; an essentially-inductive upper part including a central mandrel, a coaxial winding around the mandrel, and an external tubular casing that serves as electromagnetic armour; and an insulant disposed radially between the casing and the winding. The essentially-inductive upper part includes a second internal casing of electromagnetic armour, which is disposed radially between the insulant and the external casing.

05-07-2009

1231465A0

Timers

4

20090288628

Electrically isolated rotor ground - A thrust-producing engine includes an engine structure, a rotor that is electrically isolated from the engine structure, and an electrical conductor connected to the engine structure. The electrical conductor is in electrical contact with the engine structure and the rotor as the rotor rotates relative to the electrical conductor and the engine structure to reduce electrical arcing between the engine structure and the rotor.

11-26-2009

20100206255

ADJUSTABLE ADVANCE DISTRIBUTOR - A distributor is configured with an outer housing that has a first portion and a second portion. The first portion and the second portion are adjustable in angular orientation relative to each other. Movement of the second portion relative to the first portion changes ignition timing in the distributor. The movement can be caused by rotation of a thumbwheel such that ignition timing can be changed without mechanical tools. The first and second portions also can comprise visual or tactile markings such that ignition timing can be changed without a timing light. The outer housing can be used in multiple applications simply by changing a length of a shaft housing member that houses a distributor shaft and a gear that is mounted to the distributor shaft.

08-19-2010

20130092115

Crank Trigger Distributor - A crank trigger distributor assembly and method for sealing the crankcase from leaking vacuum through the distributor installation hole. A crank trigger distributor assembly and method for minimizing and/or preventing crankcase leakage, while being adjustable and adaptable to engine blocks or intake manifolds of various manufacturers. A crank trigger having a distributor stem, a collar located on the distributor stem, and at least one sealing element, the at least one sealing element incorporated within the collar. A crank trigger distributor assembly and method for adjusting rotor tip phasing without touching the distributor hold-down, as the cap itself can be adjusted.

04-18-2013

20120055433

HIGH ENERGY IGNITION DISTRIBUTOR CAP - Distributor caps, for example high energy ignition (HEI) distributor caps, may be configured to eliminate spark plug wire overlap via implementation of internal rewiring, for example rewiring corresponding to a firing order of a particular V-style engine. Individual tower terminals may be coupled to internal segments such that consecutive internal segments are coupled to consecutive tower terminals in the firing order, all tower terminals associated with cylinders on one side of the V-style engine are located on one side of the distributor cap, and all tower terminals associated with cylinders on the other side of the V-style engine are located on the other side of the distributor cap.